Light-emitting molecules

ABSTRACT

Luciferase polypeptides with improved light-emitting activity and their encoding nucleic acids are disclosed. These molecules are useful in a range of assays including luciferase-based gene reporter assays, bioluminescence resonance energy transfer assays, protein complementation assays and other applications in which luciferase enzymes are utilized as detectable and/or quantifiable labels. Methods and compositions for increasing the sensitivity and/or improving the kinetics of luciferase-catalyzed reactions as well as decreasing the impact of undesirable variables are also disclosed.

RELATED APPLICATIONS

This application is a National Phase of co-pending International Patent Application No. PCT/AU2011/001573 filed Dec. 5, 2011 which claims priority to U.S. Ser. No. 61/419,729 filed Dec. 3, 2010, each of which is expressly incorporated by reference herein in its entirety.

FIELD OF THE INVENTION

This invention relates generally to light-emitting molecules. More particularly, the present invention relates to luciferase polypeptides with improved light-emitting activity and their encoding nucleic acids. These molecules are useful in a range of assays including luciferase-based gene reporter assays, bioluminescence resonance energy transfer assays, protein complementation assays and other applications in which luciferase enzymes are utilized as detectable and/or quantifiable labels. The invention also relates to methods and compositions for increasing the sensitivity and/or improving the kinetics of luciferase-catalyzed reactions as well as decreasing the impact of undesirable variables.

BACKGROUND OF THE INVENTION

Luciferases represent an important tool in biological studies. For example, luciferases are the preferred reporter type for use in gene reporter assays; particularly due to their high sensitivity. Indeed, this high sensitivity has led to their use as labels for antibodies and in other applications where high signal and low background are advantageous. Luciferases are also widely used to study protein:protein interactions via techniques such as protein complementation assays (PCA; as for example disclosed in WO 2008/049160); and particularly for luciferases that emit blue light, in bioluminescence resonance energy transfer (BRET).

Gene reporter assays permit an understanding of what controls the expression of a gene of interest e.g., DNA sequences, transcription factors, RNA sequences, RNA-binding proteins, signal transduction pathways and specific stimuli. In particular, reporter assays can be used to identify nucleic acid regions important in gene regulation. Such regions and/or the factors that bind or modulate them may serve as potential targets for therapeutic intervention in the treatment or prevention of human diseases. Reporter assays can also be used to screen drugs for their ability to modify gene expression.

Reporter assays can be used to identify a gene promoter region or specific elements within a promoter, such as transcription factor binding sites or other regulatory elements. Alternatively, such assays are used to study the response of a promoter or regulatory element to various stimuli or agents. In some applications, the reporter constructs used in the assay, or transfected cells, are introduced into an organism to study promoter function in vivo. Moreover, reporter assays can be used to study or measure signal transduction pathways upstream of a specific promoter. In some cases the promoter comprises a single type of transcription factor (TF) binding site, such that reporter activity reflects the activity of the pathway leading to activation of that TF.

By way of example, in the case of reporter assays designed to investigate putative promoter sequences or other transcriptional regulatory elements, nucleic acids to be interrogated are cloned into reporter plasmids in a location so as to permit the regulation of transcription of a downstream reporter gene, and thus expression of a reporter protein encoded by the reporter gene. The reporter protein should be distinguishable from endogenous proteins present in the cell in which the reporter plasmid is transfected for ease of detection, and preferably expression of the reporter protein should be readily quantifiable. The reporter protein is quantified in an appropriate assay and often expressed relative to the level of a control reporter driven by a ubiquitous promoter such as, for example, the promoter SV40. The control reporter must be distinguishable from the test reporter and is generally contained on a separate vector that is co-transfected with the test vector and used to control for transfection efficiency. Such assays are based on the premise that cells take up proportionally equal amounts of both vectors.

A variety of different applications for gene reporter assays involves measuring a change in gene expression over time or after addition of a compound, such as a drug, ligand, hormone etc. This is of particular importance in drug screening. Following the addition of the drug, detecting a measurable change in levels of the reporter protein may be delayed and diluted as changes in expression levels are transmitted through mRNA to protein. A significant advance in such applications recently made by the present applicant is the combined use of mRNA- and protein-destabilizing elements in the reporter vector to improve the speed and magnitude of response, as described in U.S. Pat. No. 7,157,272, the disclosure of which is incorporated herein by reference in its entirety.

Various reporter gene assay systems are commercially available utilizing different detectable reporter proteins, the most common being chloramphenicol transferase (CAT), β galactosidase (β-gal), secreted alkaline phosphatase, and various fluorescent proteins and luciferases.

Luciferase is the most commonly used reporter protein for in vitro assay systems. Luciferases are enzymes capable of bioluminescence and are found naturally in a range of organisms. In commercially available assay systems, luciferases can be divided into two major groups; those which utilize D-luciferin as a substrate and those which utilize coelenterazine as a substrate. The most widely employed example of the former is firefly luciferase, an intracellular enzyme. Additional examples of luciferases utilizing D-luciferin include other members of Coleoptera, such as click beetles and railroad worms. Luciferases may also be distinguished on the basis of whether the organism from which they are derived is terrestrial or aquatic (typically marine). Luciferases utilizing coelenterazine as a substrate are typically derived from marine animals such as the soft coral Renilla or copepods such as Metridia and Gaussia, whereas D-luciferin-utilizing luciferases are typically derived from terrestrial animals. A further means of distinguishing luciferases is on the basis of whether they are secreted or non-secreted in their native state; i.e., in the organism from which they are derived. Luciferases derived from terrestrial organisms are typically non-secreted (intracellular), whilst those derived from marine organisms may be secreted or non-secreted (intracellular). For example, Renilla luciferase is intracellular, whereas Gaussia luciferase in its native state is a secreted enzyme. The secretion of luciferases by marine organisms is thought to be a protective response designed to distract approaching predators. Other secreted luciferases include those from Metridia longa, Vargula hilgendorfii, Oplophorus gracilirostris, Pleuromamma xiphias, Cypridina noctiluca and other members of Metridinidae. Vargula luciferase utilizes a substrate that is different to coelenterazine or D-luciferin. Another class of luciferase is derived from dinoflagellates.

Luciferase-based assay systems may employ more than one luciferase, typically of different origin and each utilizing a different substrate, enabling both test and control reporter to be measured in the same assay. By way of example, a putative promoter element is cloned upstream of a firefly luciferase reporter gene such that it drives expression of the luciferase gene. This plasmid is transiently transfected into a cell line, along with a control plasmid containing the Renilla luciferase gene driven by the SV40 promoter. First luciferin is added to activate the firefly luciferase, activity of this reporter is measured, and then a “quench and activate” reagent is added. This “quench and activate” reagent contains a compound that quenches the luciferin signal and also contains coelenterazine to activate the Renilla luciferase, the activity of which is then measured. The level of firefly luciferase activity is dependent not only on promoter activity but also on transfection efficiency. This varies greatly, depending on the amount of DNA, the quality of the DNA preparation and the condition of the cells. The co-transfected control plasmid (Renilla luciferase driven by a suitable promoter such as the SV40 promoter) is used to correct for these variables, based on the premise that Renilla luciferase activity is proportional to the amount of firefly luciferase-encoding plasmid taken up by the cells. Alternatively or in addition, the Renilla luciferase may be used to control for other variables, such as cell number, cell viability and/or general transcriptional activity; or may be used to determine whether a particular treatment or compound applied to the cells affects both promoters or is specific to one of them.

Luciferase-based assay systems, in particular those utilizing one or more intracellular luciferases, often employ two buffers, a lysis buffer and an assay buffer. The lysis buffer is added to the cells first to lyse the cells and thus release luciferase, facilitating subsequent measurement. An assay buffer containing the luciferase substrate and any cofactors is then added, after which measurement of luciferase activity is taken. Measurement may be made immediately (i.e., within seconds) of the addition of the assay buffer (so-called “flash” reaction), or minutes or hours later (so-called “glow” reactions) by using “glow” reagents in the assay buffer that keep the light signal stable for an extended period of time. Flash reactions provide the highest signal strength (light units per second) and thereby have the advantage of providing the highest sensitivity. Glow reactions are particularly advantageous in applications where, for example, the user does not have a suitable luminometer (equipped with injectors) readily available or in some high throughput screening applications where batch-processing requires a delay between injection and measurement.

Secreted luciferases are measured in samples of the conditioned medium surrounding the test cells. As such, lysis buffers are typically not used with secreted luciferases. Secreted luciferases from copepods such as Metridia and Gaussia species are not only the smallest known luciferases but also provide the highest sensitivity of all known luciferases. Both of these features are clearly advantageous but the latter feature is of particular importance where the reporter gene assayed provides only low levels of luciferase in the cells of interest, for example, where the promoter being studied has only low activity, and/or where the cells of interest are difficult to transfect/transduce with the reporter vector. A further increase in sensitivity would also facilitate the miniaturization of reporter assays by reducing the minimum number of cells required to yield a signal strength that can be reliably measured.

When utilizing assay systems including destabilizing elements such as those described in U.S. Pat. No. 7,157,272, the steady-state luciferase signal is reduced. Thus luciferases that provide higher signal strength would be particularly advantageous for reporter assay systems utilizing destabilizing elements.

As stated above, the luciferases that provide the highest sensitivity are secreted luciferases from the family of luciferases that include copepods such as Metridia and Gaussia (also referred to herein as “copepod luciferases,” “copepod family of luciferases” and the like). However, in some applications it is preferable to use non-secreted luciferases. For example, to enable the use of protein destabilizing elements and thereby improve responsiveness. Consequently, non-secreted versions of copepod luciferases have been developed; for example by removing the functional signal peptide, as disclosed for instance in WO 2008/049160.

A common feature of this family of luciferases is their dependence on folding via the formation of disulfide bridges between their ten conserved cysteines, often designated C₁ to C₁₀. This feature was recently utilized to develop novel multi-luciferase assays that employ a reducing agent such as DTT to switch off the luciferase or shorten its period of light emission, thereby enabling measurement of a different luciferase in the same sample, as disclosed for example in WO 2008/074100.

In other applications, there is currently a compromise between “flash” and “glow” buffers and luciferases. That is, to obtain an intense flash, the glow phase is sacrificed and vice versa. There is a clear need for systems that can provide a high sensitivity flash reaction but also provide a prolonged glow. Luciferases facilitating the generation of both high flash and prolonged glow from luciferase-catalyzed bioluminescence reactions would provide the user with a dual purpose reagent that can provide high sensitivity (flash reactions) where needed but also provide the convenience of glow reactions for applications where high sensitivity is not required.

To improve the accuracy of luciferase-based assays it is desirable to minimize the effect of unwanted or unavoidable variables on the activity of the luciferase. One such variable is temperature. Most in vitro luciferase-based assays are performed on a laboratory bench at “room temperature”. However, it is often impractical or impossible to provide a constant temperature within the samples. For example, the measuring device (e.g. luminometer) typically generates heat, which raises the reaction temperature over time during measurement. This creates inaccuracy because, for example, the reaction temperature is higher in the last sample measured than in the first sample measured; and the measured parameter (luminescence) is affected by temperature as well as by the amount of luciferase present in the sample.

Additionally, the samples and assay reagents are often stored in a fridge or freezer prior to measurement; and variations in the extent of warming prior to initiation of the reaction are not uncommon in practice. Clearly, it is desirable to have a luciferase that displays minimal change in activity in response to fluctuations in temperature above and below room temperature. A particularly desirable feature would be minimal change in activity in response to temperature rises above room temperature, which occur within luminometers.

Additionally, it is desirable to hive a luciferase with an optimal temperature at or about the intended temperature of the measurement assay. For example, this would provide greater sensitivity. As indicated above, room temperature is common for many in vitro luciferase assays. However, 37° C. would be preferable for certain in vivo assays, such as those performed within a living mammal. Other luciferase assays (e.g., as an antibody label) would preferably be performed at or about 4° C. in order to minimize degradation of essential reaction components in the sample and/or assay reagent.

Accordingly, it would be advantageous to be able to customize a luciferase by adjusting its optimal temperature and temperature effect according to the preferred parameters of the intended assay type.

There are a number of disadvantages associated with the known copepod luciferases from Metridia and Gaussia. In particular, there is a need for luciferases that provide improved sensitivity and accuracy in luciferase reactions. For example, a flash signal strength of greater intensity than is achievable with existing luciferases; and/or a glow signal that is either of greater intensity and/or more stable over time; and/or a temperature effect that is more suitable for the intended assay type.

It would be particularly advantageous to determine the type of structural changes or elements in these luciferases that convey the desirable features. Such knowledge would enable customization and optimization of luciferases, including luciferases within the copepod luciferase family.

SUMMARY OF THE INVENTION

The present invention is based in part on the discovery that modifying certain structural elements of luciferases, including luciferases within the copepod luciferase family can modulate luciferase function. In particular, the present inventors have found that: (1) an L at position 85 or 98 (relative to the consensus numbering shown in FIG. 1); (2) a truncation, in whole or in part, of a region spanning downstream of the signal (secretory) peptide sequence and upstream of about residue 85; (3) at least one 4-residue motif, which includes a conserved cysteine (e.g., C₅, C₆, C₉ and C₁₀); (4) at least one 2-residue motif, which includes a conserved cysteine (e.g., C₅, C₆, C₉ and C₁₀); and/or (5)); at least one 3-residue motif, which includes a conserved cysteine (e.g., C₅, C₆, C₉ and C₁₀) can significantly improve one or more light-emitting characteristics selected from luminescence, flash signal intensity, glow signal intensity, glow signal stability and effective temperature range, including elevating optimal temperature range, of luciferase function. These discoveries have been reduced to practice in novel polypeptides with improved light-emitting kinetics and their use in assays, as described hereafter.

Accordingly, in one aspect, the present invention provides polypeptides, which are suitably in isolated, synthetic, recombinant or purified form, which comprise, consist or consist essentially of an amino acid sequence having luciferase activity, wherein the amino acid sequence is selected from:

-   -   (a) an amino acid sequence represented by formula I:

(I) LPGKKX₁PX₂X₃VX₄X₅EX₆EANAX₇X₈AGC₁X₉RGC₂LX₁₀C₃LSX₁₁ IKC₄TX₁₂X₁₃MX₁₄X₁₅X₁₆IPGB₁C₅X₁₇X₁₈YX₁₉GDKX₂₀X₂₁X₂₂ QX₂₃GIX₂₄X₂₅X₂₆X₂₇IVDX₂₈PEIX₂₉GFKX₃₀X₃₁X₃₂PX₃₃X₃₄ QFIAQVX₃₅X₃₆C₆X₃₇X₃₈C₇X₃₉TGC₈LKGLANVX₄₀C₉ΣX₄₁ LLKKWLPX₄₂B₂C₁₀X₄₃X₄₄FAX₄₅KIQX₄₆X₄₇X₄₈X₄₉X₅₀ IKGX₅₁X₅₂GD wherein:

-   -   X₁ is selected from hydrophobic amino acid residues (e.g.,         aliphatic amino acid residues such as L or M, or modified form         thereof);     -   X₂ is selected from hydrophobic amino acid residues (e.g.,         aliphatic amino acid residues such as L, or modified form         thereof) or basic amino acid residues (e.g., K, or modified form         thereof);     -   X₃ is selected from hydrophobic amino acid residues (e.g.,         aliphatic amino acid residues such as A, or modified form         thereof) or acidic amino acid residues (e.g., E, or modified         form thereof);     -   X₄ is selected from hydrophobic amino acid residues (e.g.,         aliphatic amino acid residues such as I or L, or modified form         thereof) or small amino acid residues (e.g., P, or modified form         thereof);     -   X₅ is selected from hydrophobic amino acid residues (e.g.,         aliphatic amino acid residues such as I, M or V, or modified         form thereof) or basic amino acid residues (e.g., K, or modified         form thereof);     -   X₆ is selected from hydrophobic amino acid residues (e.g.,         aliphatic amino acid residues such as M, I or L, or modified         form thereof);     -   X₇ is selected from basic amino acid residues (e.g., K or R, or         modified form thereof) or hydrophobic amino acid residues (e.g.,         aromatic amino acid residues such as F, or modified form         thereof);     -   X₈ is selected from basic amino acid residues (e.g., K or R, or         modified form thereof);     -   X₉ is selected from small amino acid residues (e.g., T, or         modified form thereof) or basic amino acid residues (e.g., H, or         modified form thereof);     -   X₁₀ is selected from hydrophobic amino acid residues (e.g.,         aliphatic amino acid residues such as I or V, or modified form         thereof);     -   X₁₁ is selected from basic amino acid residues (e.g., H or K, or         modified form thereof);     -   X₁₂ is selected from small amino acid residues (e.g., P or A, or         modified form thereof) or basic amino acid residues (e.g., K, or         modified form thereof);     -   X₁₃ is selected from basic amino acid residues (e.g., K, or         modified form thereof) or neutral/polar amino acid residues         (e.g., Q, or modified form thereof);     -   X₁₄ is selected from basic amino acid residues (e.g., K, or         modified form thereof) or neutral/polar amino acid residues         (e.g., Q, or modified form thereof);     -   X₁₅ is selected from any amino acid residue (e.g., basic amino         acid residues such as K, or modified form thereof, hydrophobic         amino acid residues including aliphatic amino acid residues such         as V, or modified form thereof, or neutral/polar amino acid         residues such as Q, or modified form thereof);     -   X₁₆ is selected from hydrophobic amino acid residues (e.g.,         aromatic amino acid residues such as F or Y, or modified form         thereof);     -   B₁ is selected from basic amino acid residues (e.g., R or K, or         modified form thereof);     -   X₁₇ is selected from basic amino acid residues (e.g., H, or         modified form thereof) or small amino acid residues (e.g., A, or         modified form thereof);     -   X₁₈ is selected from acidic amino acid residues (e.g., D, or         modified form thereof) or small amino acid residues (e.g., T or         S, or modified form thereof);     -   X₁₉ is selected from acidic amino acid residues (e.g., E, or         modified form thereof) or small amino acid residues (e.g., G or         A, or modified form thereof);     -   X₂₀ is selected from acidic amino acid residues (e.g., D or E,         or modified form thereof) or basic amino acid residues (e.g., K,         or modified form thereof);     -   X₂₁ is selected from small amino acid residues (e.g., S or T, or         modified form thereof);     -   X₂₂ is selected from small amino acid residues (e.g., G or A, or         modified form thereof);     -   X₂₃ is selected from small amino acid residues (e.g., G or A, or         modified form thereof);     -   X₂₄ is selected from small amino acid residues (e.g., G or A, or         modified form thereof) or hydrophobic amino acid residues (e.g.,         aliphatic amino acid residues such as V, or modified form         thereof);     -   X₂₅ is absent or selected from small amino acid residues (e.g.,         G, or modified form thereof);     -   X₂₆ is selected from acidic amino acid residues (e.g., E, or         modified form thereof) or small amino acid residues (e.g., G, or         modified form thereof);     -   X₂₇ is selected from small amino acid residues (e.g., A, or         modified form thereof) or acidic amino acid residues (e.g., E,         or modified form thereof);     -   X₂₈ is selected from hydrophobic amino acid residues (e.g.,         aliphatic amino acid residues such as I or M, or modified form         thereof);     -   X₂₉ is selected from small amino acid residues (e.g., P, S or A,         or modified form thereof);     -   X₃₀ is selected from acidic amino acid residues (e.g., D or E,         or modified form thereof);     -   X₃₁ is selected from hydrophobic amino acid residues (e.g.,         aliphatic amino acid residues such as L or M, or modified form         thereof) or basic amino acid residues (e.g., K, or modified form         thereof);     -   X₃₂ is selected from charged amino acid residues (e.g., acidic         amino acid residues such as E, or modified form thereof, or         basic amino acid residues such as K, or modified form thereof)         or small amino acid residues (e.g., G or A, or modified form         thereof);     -   X₃₃ is selected from hydrophobic amino acid residues (e.g.,         aliphatic amino acid residues such as M or L, or modified form         thereof);     -   X₃₄ is selected from acidic amino acid residues (e.g., E or D,         or modified form thereof);     -   X₃₅ is selected from acidic amino acid residues (e.g., D or E,         or modified form thereof);     -   X₃₆ is selected from hydrophobic amino acid residues (e.g.,         aliphatic amino acid residues such as L, or modified form         thereof) or basic amino acid residues (e.g., R, or modified form         thereof);     -   X₃₇ is selected from any amino acid residue (e.g., hydrophobic         amino acid residues including aliphatic amino acid residues such         as V, or modified form thereof, or small amino acid residues         such as A or T, or modified form thereof, or basic amino acid         residues such as H or modified form thereof, or acidic amino         acid residues such as E or D, or modified form thereof);     -   X₃₈ is selected from acidic amino acid residues (e.g., D, or         modified form thereof) or small amino acid residues (e.g., S or         T, or modified form thereof);     -   X₃₉ is selected from small amino acid residues (e.g., T, or         modified form thereof) or neutral/polar amino acid residues         (e.g., N, or modified form thereof);     -   X₄₀ is selected from basic amino acid residues (e.g., K, R or H,         or modified form thereof) or neutral/polar amino acid residues         (e.g., Q, or modified form thereof);     -   Σ is selected from small amino acid residues (e.g., S, A or T,         or modified form thereof);     -   X₄₁ is selected from acidic amino acid residues (e.g., D or E,         or modified form thereof) or small amino acid residues (e.g., A,         or modified form thereof);     -   X₄₂ is selected from any amino acid residue (e.g., small amino         acid residues such as P, G, T, S or A, or modified form thereof,         or neutral/polar amino acid residues such as Q or N, or modified         form thereof, basic amino acid residues such as H, K or R or         modified form thereof, or acidic amino acid residues such as D         or E, or modified form thereof);     -   B₂ is selected from basic amino acid residues (e.g., R or K, or         modified form thereof);     -   X₄₃ is selected from small amino acid residues (e.g., A, or         modified form thereof) or basic amino acid residues (e.g., K, or         modified form thereof);     -   X₄₄ is selected from small amino acid residues (e.g., S or T, or         modified form thereof);     -   X₄₅ is selected from acidic amino acid residues (e.g., D, or         modified form thereof) or small amino acid residues (e.g., S, or         modified form thereof);     -   X₄₆ is selected from small amino acid residues (e.g., G or S, or         modified form thereof) or basic amino acid residues (e.g., K, or         modified form thereof);     -   X₄₇ is selected from neutral/polar amino acid residues (e.g., Q,         or modified form thereof) or acidic amino acid residues (e.g.,         E, or modified form thereof);     -   X₄₈ is selected from hydrophobic amino acid residues (e.g.,         aliphatic amino acid residues such as V, or modified form         thereof) or small amino acid residues (e.g., A, or modified form         thereof);     -   X₄₉ is selected from charged amino acid residues (e.g., acidic         amino acid residues such as D, or modified form thereof, or         basic amino acid residues such as H, or modified form thereof);     -   X₅₀ is selected from any amino acid residue (e.g., basic amino         acid residues such as K, or modified form thereof, or         neutral/polar amino acid residues such as N, or modified form         thereof, or small amino acid residues such as T, or modified         form thereof);     -   X₅₁ is selected from small amino acid residues (e.g., A, or         modified form thereof) or hydrophobic amino acid residues (e.g.,         aliphatic amino acid residues such as L or M, or modified form         thereof); and     -   X₅₂ is selected from small amino acid residues (e.g., G or A, or         modified form thereof), or     -   (b) an amino acid sequence that shares at least 70% (and at         least 71% to at least 99% and all integer percentages in         between) sequence similarity or sequence identity with the amino         acid sequence represented by formula I, wherein the amino acid         sequence comprises L, or modified form thereof, at position 1 of         formula I.

Suitably, the polypeptides are other than ones comprising or consisting of an amino acid sequence selected from:

[SEQ ID NO: 2] MGVKVLFALICIAVAEAKPTENNEDFNIVAVASNFATTDLDADRGKLPGK KLPLEVLKEMEANARKAGCTRGCLICLSHIKCTPKMKKFIPGRCHTYEGDKESAQGGIGEAIV DIPEIPGFKDLEPMEQFIAQVDLCVDCTTGCLKGLANVQCSDLLKKWLPQRCATFASKIQGQV DKIKGAGGD (full-length sequence of Gaussia princeps Prolume luciferase,  also referred to herein as Prolume); [SEQ ID NO: 4] MGVKVLFALICIAVAEAKPTENNEDFNIVAVASNFATTDLDADRGKLPGK KLPLEVLKEMEANARKAGCTRGCLICLSHIKCTPKMKKFIPGRCHTYEGDKESAQGGIGEAIV DIPEIPGFKDLEPMEQFIAQVDLCVDCTTGCLKGLANVQCSDLLKKWLPQRCATFASKIQGQV DKIKGAGGDKDEL (full-length sequence of Gaussia princeps Prolume KDEL luciferase, also referred to herein as Prolume KDEL); [SEQ ID NO: 6] MGVKVLFALICIAVAEAKPTENNEDFNIVAVASNFATTDLDADRGKLPGK KLPLEVLKEIEANARKAGCTRGCLICLSHIKCTPKMKKFIPGRCHTYEGDKESAQGGIGEAIVD IPEIPGFKDLEPMEQFIAQVDLCVDCTTGCLKGLANVQCSDLLKKWLPQRCATFASKIQGQVD KIKGAGGD (full-length sequence of Gaussia princeps Mutant 1 luciferase,  also referred to herein as Mutant 1); [SEQ ID NO: 8] MGVKVLFALICIAVAEAKPTENNEDFNIVAVASNFATTDLDADRGKLPGK KLPLEVLKELEANARKAGCTRGCLICLSHIKCTPKMKKFIPGRCHTYEGDKESAQGGIGEAIV DIPEIPGFKDLEPLEQFIAQVDLCVDCTTGCLKGLANVQCSDLLKKWLPQRCATFASKIQGQV DKIKGAGGD (full-length sequence of Gaussia princeps Mutant 2 luciferase,  also referred to herein as Mutant 2); or [SEQ ID NO: 10] MEAKPTENNEDFNIVAVASNFATTDLDADRGKLPGKKLPLEVLKEMEANA RKAGCTRGCLICLSHIKCTPKMKKFIPGRCHTYEGDKESAQGGIGEAIVDIPEIPGFKDLEPME QFIAQVDLCVDCTTGCLKGLANVQCSDLLKKWLPQRCATFASKIQGQVDKIKGAGGD (full-length sequence of Gaussia princeps InGa luciferase, also  referred to herein as GSInGa).

In some embodiments, the polypeptide further comprises upstream (e.g., immediately upstream) of the sequence represented by formula I an amino acid sequence represented by formula II: X₅₃X₅₄X₅₅X₅₆X₅₇RGO₁X₅₈  (II)

-   -   wherein:     -   X₅₃ is absent or is selected from acidic amino acid residues         (e.g., D or E, or modified form thereof) or neutral/polar amino         acid residues (e.g., N, or modified form thereof), wherein X₅₃         is present in some embodiments with the proviso that X₅₄ is         present;     -   X₅₄ is absent or is selected from any amino acid residue (e.g.,         hydrophobic amino acid residues including aliphatic amino acid         residues such as L or V, or modified form thereof; small amino         acid residues such as S, T or A, or modified form thereof; or         neutral/polar amino acid residues such as N, or modified form         thereof), wherein X₅₄ is present in some embodiments with the         proviso that X₅₅ is present;     -   X₅₅ is absent or is selected from acidic amino acid residues         (e.g., D or E, or modified form thereof), wherein X₅₅ is present         in some embodiments with the proviso that X₅₆ is present;     -   X₅₆ is absent or is selected from any amino acid residue (e.g.,         hydrophobic amino acid residue including aliphatic amino acid         residues such as V, or modified form thereof; or small amino         acid residues such as S, T or A, or modified form thereof),         wherein X₅₆ is present in some embodiments with the proviso that         X₅₇ is present;     -   X₅₇ is selected from acidic amino acid residues (e.g., D or E,         or modified form thereof) or neutral/polar amino acid residues         (e.g., N, or modified form thereof), wherein X₅₇ is present in         some embodiments with the proviso that O₁ is present;     -   O₁ is absent or is the sequence J₁J₂J₃, wherein J₁ is selected         from small amino acid residues (e.g., G or modified form         thereof), J₂ is selected from basic amino acid residues (e.g., H         or modified form thereof), and J₃ is selected from small amino         acid residues (e.g., G or modified form thereof), wherein O₁ is         present in some embodiments with the proviso that X₅₈ is         present; and     -   X₅₈ is selected from basic amino acid residues (e.g., K, or         modified form thereof); or small amino acid residues (e.g., G or         modified form thereof).

In some embodiments, the polypeptides comprise, consist or consist essentially of an amino acid sequence selected from the group consisting of:

(a) an amino acid sequence selected from:

[SEQ ID NO: 12] MGVKLIFAVLCVAAAQAATINENFEDIDVVAIGGSFALDVDANRGGHGGL PGKKMPKEVLVEMEANAKRAGCHRGCLICLSHIKCTKKMKKFIPGRCHSYEGDKDSAQGGIG EEIVDMPEIPGFKDKEPMDQFIAQVDLCVDCTTGCLKGLANVHCSALLKKWLPSRCKTFASKI QSQVDTIKGLAGDR (full-length Metridia pacifica 2a luciferase with H50L substitution); [SEQ ID NO: 14] MGVKLIFAVVCVAAAQAATINENFEDIDLVAIGGSFALDVDANRGGHGGL PGKKMPKEVLVEMEANAKRAGCHRGCLICLSHIKCTKKMKKFIPGRCHSYEGDKDSAQGGIG EEIVDMPEIPGFKDKEPMDQFIAQVDLCVDCTTGCLKGLANVHCSDLLKKWLPSRCKTFASKI QSQVDTIKGLAGDR (full-length Metridia pacifica 2bv1 luciferase with H50L substitution); [SEQ ID NO: 16] MGVKLIFAVVCVAAAQAATINENFEDIDLVAIGGSFALDVDANRGGHGGL PGKKMPKEVPVEMEANAKRAGCHRGCLICLSHIKCTKKMKKFIPGRCHSYEGDKDSAQGGIG EEIVDMPEIPGFKDKEPMDQFIAQVDLCVDCTTGCLKGLANVHCSDLLKKWLPSRCKTFASKI QSQVDTIKGLAGDR (full-length Metridia pacifica 2bv2 luciferase with H50L substitution); [SEQ ID NO: 18] MGVKLIFAVVCVAVAQAATIQENFEDIDLVAIGGSFASDVDANRGGHGGL PGKKMPKEVLMEMEANAKRAGCHRGCLVCLSHIKCTAQMQKFIPGRCHSYAGDKDSAQGGI AGGAIVDIPEIAGFKEMKPMEQFIAQVDLCEDCTTGCLKGLANVHCSDLLKKWLPSRCKTFAS KIQSQVDTIKGLAGDR (full-length Metridia longa 22 luciferase with H50L substitution); [SEQ ID NO: 20] MMEIQVLFALICFALVQANPTENKDDIDIVGVEGKFGTTDLETDLFTIVED MNVISRDTNLANSDADRGKLPGKKLPLEVLIEMEANARKAGCTRGCLICLSKIKCTAKMKVY IPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKELGPMEQFIAQVDLCADCTTGCLKGLANVK CSALLKKWLPDRCASFADKIQSEVDNIKGLAGDR (full-length Metridia pacifica 1v1 luciferase with M71L substitution); [SEQ ID NO: 22] MMEIKVLFALICFALVQANPTENKDDIDIVGVEGKFGTTDLETDLFTIVED MNVISRDTNLANSDADRGKLPGKKLPLEVLIEMEANARKAGCTRGCLICLSKIKCTAKMKVY IPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKELGPMEQFIAQVDLCADCTTGCLKGLANVK CSALLKKWLPDRCASFADKIQSEVDNIKGLAGDR (full-length Metridia pacifica 1v2 luciferase with M71L substitution); [SEQ ID NO: 24] MMEVKVVFALICFALVQANPTENKDDIDIVGVEGKFGTTDLETDLFTIVED MNVISRDTNLANSDADRGKL PGKKLPLEVLIEMEANARKAGCTRGCLICLSKIKCTAKMKVYIPGRCHDYGGDKKTGQAGIV GAIVDIPEISGFKELGPMEQFIAQVDLCADCTTGCLKGLANVKCSALLKKWLPDRCASFADKI QSEVDNIKGLAGDR (full-length Metridia pacifica 1v3 luciferase with M71L substitution); [SEQ ID NO: 26] MDIKVLFALICIALVQANPTENNDHINIVGIEGKFGITDLETDLFTIWETNRM ISTDNEQANTDSNRGKLPGKKLPLAVLIEMEANAFKAGCTRGCLICLSKIKCTAKMKKYIPGR CHDYGGDKKTGQAGIVGAIVDIPDISGFKEMGPMEQFIAQVDRCTDCTTGCLKGLANVKCSE LLKKWLPDRCASFADKIQSEVHNIKGLAGDR (full-length Metridia longa 39 luciferase with M70L substitution); [SEQ ID NO: 28] MDIKFIFALVCIALVQANPTVNNDVNRGKLPGKKLPLEVLIEMEANAFKAG CTRGCLICLSKIKCTAKMKQYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMEPMEQFIA QVDLCADCTTGCLKGLANVKCSELLKKWLPDRCASFADKIQKEAHNIKGLAGDR (full-length Metridia longa 7 luciferase with M30L substitution); [SEQ ID NO: 30] MKTDIADTDRASNFVATETDANRGKLPGKKLPLAVIMEMEANAFKAGCT RGCLICLSKIKCTAKMKVYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQ VDRCASCTTGCLKGLANVKCSELLKKWLPDRCASFADKIQKEVHNIKGMAGDR (full-length Metridia longa GS luciferase with M26L substitution); [SEQ ID NO: 32] MDIKVVFTLVFSALVQAQKTDIADTDRASNFVATETDANRGKLPGKKLPL AVIMEMEANAFKAGCTRGCLICLSKIKCTAKMKVYIPGRCHDYGGDKKTGQAGIVGAIVDIP EISGFKEMAPMEQFIAQVDRCASCTTGCLKGLANVKCSELLKKWLPDRCASFADKIQKEVHN IKGMAGDR (full-length Metridia longa 164M3 luciferase with M43L substitution); [SEQ ID NO: 34] MDIKVVFTLVFSALVQAKSTEFDPNIDIVGLEGKFGITNLETDLFTIWETME VMIKADIADTDRASNFVATETDANRGKLPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIK CTAKMKVYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDRCASCTTG CLKGLANVKCSELLKKWLPDRCASFADKIQKEVHNIKGMAGDR (full-length Metridia longa 164v1 luciferase with M80L  substitution); [SEQ ID NO: 36] MDIKVVFTLVFSALVQAKSTEFDPNIDIVGLEGKFGITNLETDLFTIWETME VMIKADIADTDRASNFVATETDANRGKLPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIK CTAKMKVYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVERCASCTTGC LKGLANVKCSELLKKWLPDRCASFADKIQKEVHNIKGMAGDR (full-length Metridia longa 164v2 luciferase with M80L  substitution); [SEQ ID NO: 38] MDMKVIFALIFSALVQAKSTEFDPNIDIVGLEGKFGITNLETDLFTIWETME VIKSDIADTDRVSNFVATETDANRGKLPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCT AKMKVYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDRCTSCTTGCL KGLANVKCSELLKKWLPDRCASFADKIQKEVHNIKGMAGDR (full-length Metridia longa 16 luciferase with M79L substitution); [SEQ ID NO: 40] MDIKVVFALVFSALVQAKSTEFDPNIDIVGLEGKFGITNLETDLFTIWETME VIKTDIADTDRARSFVATETDANRGKLPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCT AKMKVYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMEPMEQFIAQVDRCASCTTGCL KGLANVKCSELLKKWLPDRCASFADKIQKEVHNIKGMAGDR (full-length Metridia longa 45 luciferase with M79L substitution); [SEQ ID NO: 42] MDIKVVFALVFSALVQAKSTEFDPNIDVVGLEGKFGITNLETDLFTIWETM EVIKTDIADTDRARNFVATETDANRGKLPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKC TAKMKVYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMEPMEQFIAQVDRCASCNTGC LKGLANVKCSELLKKWLPDRCASFADKIQKEVHNIKGMAGDR (full-length Metridia longa 52 luciferase with M79L substitution); and [SEQ ID NO: 44] MDMRVIFALVFSSLVQAKSTEFDPNINIVGLEGKFGITNLETDLFTIWETMD VIKSDITDTDRVSNFVATETDANRGKLPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCT AKMKVYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDLCATCTTGCL KGLANVKCSELLKKWLPGRCASFADKIQKEVHNIKGMAGDR (full-length Metridia longa AL luciferase with M79L substitution); or

(b) an amino acid sequence that shares at least 70% (and at least 71% to at least 99% and all integer percentages in between) sequence similarity or sequence identity with the sequence set forth in any one of SEQ ID NO: 12, 14, 16, 18, 20, 22, 24, 26, 28, 30, 32, 34, 36, 38, 40, 42 or 44, wherein the amino acid sequence comprises L, or modified form thereof, at a position corresponding to position 1 of formula I; or

(c) an amino acid sequence which is encoded by the nucleotide sequence set forth in any one of:

[SEQ ID NO: 11] atgggngtnaarytnathttygcngtnytntgygtngcngcngcncargcngcnacnathaaygaraayttygarg ayathgaygtngtngcnathggnggnwsnttygcnytngaygtngaygcnaaymgnggnggncayggnggnytnccnggnaaraaratg ccnaargargtnytngtngaratggargcnaaygcnaarmgngcnggntgycaymgnggntgyytnathtgyytnwsncayathaartgya cnaaraaratgaaraarttyathccnggnmgntgycaywsntaygarggngayaargaywsngcncarggnggnathggngargarathgt ngayatgccngarathccnggnttyaargayaargarccnatggaycarttyathgcncargtngayytntgygtngaytgyacnacnggntgy ytnaarggnytngcnaaygtncaytgywsngcnytnytnaaraartggytnccnwsnmgntgyaaracnttygcnwsnaarathcarwsnc argtngayacnathaarggnytngcnggngaymgn (nucleotide sequence encoding full-length Metridia pacifica 2a luciferase with H50L substitution); [SEQ ID NO: 13] atgggngtnaarytnathttygcngtngtntgygtngcngcngcncargcngcnacnathaaygaraayttygarg ayathgayytngtngcnathggnggnwsnttygcnytngaygtngaygcnaaymgnggnggncayggnggnytnccnggnaaraaratg ccnaargargtnytngtngaratggargcnaaygcnaarmgngcnggntgycaymgnggntgyytnathtgyytnwsncayathaartgya cnaaraaratgaaraarttyathccnggnmgntgycaywsntaygarggngayaargaywsngcncarggnggnathggngargarathgt ngayatgccngarathccnggnttyaargayaargarccnatggaycarttyathgcncargtngayytntgygtngaytgyacnacnggntgy ytnaarggnytngcnaaygtncaytgywsngayytnytnaaraartggytnccnwsnmgntgyaaracnttygcnwsnaarathcarwsnc argtngayacnathaarggnytngcnggngaymgn (nucleotide sequence encoding full-length Metridia pacifica 2bv1 luciferase with H50L substitution); [SEQ ID NO: 15] atgggngtnaarytnathttygcngtngtntgygtngcngcngcncargcngcnacnathaaygaraayttygarg ayathgayytngtngcnathggnggnwsnttygcnytngaygtngaygcnaaymgnggnggncayggnggnytnccnggnaaraaratg ccnaargargtnytngtngaratggargcnaaygcnaarmgngcnggntgycaymgnggntgyytnathtgyytnwsncayathaartgya cnaaraaratgaaraarttyathccnggnmgntgycaywsntaygarggngayaargaywsngcncarggnggnathggngargarathgt ngayatgccngarathccnggnttyaargayaargarccnatggaycarttyathgcncargtngayytntgygtngaytgyacnacnggntgy ytnaarggnytngcnaaygtncaytgywsngayytnytnaaraartggytnccnwsnmgntgyaaracnttygcnwsnaarathcarwsnc argtngayacnathaarggnytngcnggngaymgn (nucleotide sequence encoding full-length Metridia pacifica 2bv2 luciferase with H50L substitution); [SEQ ID NO: 17] atgggngtnaarytnathttygcngtngtntgygtngcngtngcncargcngcnacnathcargaraayttygarga yathgayytngtngcnathggnggnwsnttygcnwsngaygtngaygcnaaymgnggnggncayggnggnytnccnggnaaraaratg ccnaargargtnytnatggaratggargcnaaygcnaarmgngcnggntgycaymgnggntgyytngtntgyytnwsncayathaartgya cngcncaratgcaraarttyathccnggnmgntgycaywsntaygcnggngayaargaywsngcncarggnggnathgcnggnggngcn athgtngayathccngarathgcnggnttyaargaratgaarccnatggarcarttyathgcncargtngayytntgygargaytgyacnacngg ntgyytnaarggnytngcnaaygtncaytgywsngayytnytnaaraartggytnccnwsnmgntgyaaracnttygcnwsnaarathcar wsncargtngayacnathaarggnytngcnggngaymgn (nucleotide sequence encoding full- length Metridia longa 22 luciferase with H50L substitution); [SEQ ID NO: 19] atgatggarathcargtnytnttygcnytnathtgyttygcnytngtncargcnaayccnacngaraayaargayga yathgayathgtnggngtngarggnaarttyggnacnacngayytngaracngayytnttyacnathgtngargayatgaaygtnathwsnm gngayacnaayytngcnaaywsngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargtnytnathgaratggargcna aygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnm gntgycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaarga rytnggnccnatggarcarttyathgcncargtngayytntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgyws ngcnytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcarwsngargtngayaayathaarggnytngcnggn gaymgn (nucleotide sequence encoding full-length Metridia pacifica 1v1 with M71L substitution); [SEQ ID NO: 21] atgatggarathaargtnytnttygcnytnathtgyttygcnytngtncargcnaayccnacngaraayaargayga yathgayathgtnggngtngarggnaarttyggnacnacngayytngaracngayytnttyacnathgtngargayatgaaygtnathwsnm gngayacnaayytngcnaaywsngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargtnytnathgaratggargcna aygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnm gntgycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaarga rytnggnccnatggarcarttyathgcncargtngayytntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgyws ngcnytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcarwsngargtngayaayathaarggnytngcnggn gaymgn (nucleotide sequence encoding full-length Metridia pacifica 1v2 luciferase with M71L substitution); [SEQ ID NO: 23] atgatggargtnaargtngtnttygcnytnathtgyttygcnytngtncargcnaayccnacngaraayaargayga yathgayathgtnggngtngarggnaarttyggnacnacngayytngaracngayytnttyacnathgtngargayatgaaygtnathwsnm gngayacnaayytngcnaaywsngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargtnytnathgaratggargcna aygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnm gntgycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaarga rytnggnccnatggarcarttyathgcncargtngayytntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgyws ngcnytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcarwsngargtngayaayathaarggnytngcnggn gaymgn (nucleotide sequence encoding full-length Metridia pacifica 1v3 luciferase with M71L substitution); [SEQ ID NO: 25] atggayathaargtnytnttygcnytnathtgyathgcnytngtncargcnaayccnacngaraayaaygaycaya thaayathgtnggnathgarggnaarttyggnathacngayytngaracngayytnttyacnathtgggaracnaaymgnatgathwsnacn gayaaygarcargcnaayacngaywsnaaymgnggnaarytnccnggnaaraarytnccnytngcngtnytnathgaratggargcnaay gcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaaraartayathccnggnmgntg ycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngayathwsnggnttyaargaratg ggnccnatggarcarttyathgcncargtngaymgntgyacngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsng arytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcarwsngargtncayaayathaarggnytngcnggnga ymgn (nucleotide sequence encoding full-length Metridia longa 39 luciferase with M70L substitution); [SEQ ID NO: 27] atggayathaarttyathttygcnytngtntgyathgcnytngtncargcnaayccnacngtnaayaaygaygtnaa ymgnggnaarytnccnggnaaraarytnccnytngargtnytnathgaratggargcnaaygcnttyaargcnggntgyacnmgnggntgy ytnathtgyytnwsnaarathaartgyacngcnaaratgaarcartayathccnggnmgntgycaygaytayggnggngayaaraaracngg ncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargaratggarccnatggarcarttyathgcncargtngay ytntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsngarytnytnaaraartggytnccngaymgntgyg cnwsnttygcngayaarathcaraargargcncayaayathaarggnytngcnggngaymgn (nucleotide sequence encoding full-length Metridia longa 7 luciferase with M30L substitution]; [SEQ ID NO: 29] atgaaracngayathgcngayacngaymgngcnwsnaayttygtngcnacngaracngaygcnaaymgngg naarytnccnggnaaraarytnccnytngcngtnathatggaratggargcnaaygcnttyaargcnggntgyacnmgnggntgyytnathtg yytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgntgycaygaytayggnggngayaaraaracnggncargcn ggnathgtnggngcnathgtngayathccngarathwsnggnttyaargaratggcnccnatggarcarttyathgcncargtngaymgntgy gcnwsntgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsngarytnytnaaraartggytnccngaymgntgygcnwsn ttygcngayaarathcaraargargtncayaayathaarggnatggcnggngaymgn (nucleotide sequence encoding full-length Metridia longa GS luciferase with M30L substitution); [SEQ ID NO: 31] atggayathaargtngtnttyacnytngtnttywsngcnytngtncargcncaraaracngayathgcngayacng aymgngcnwsnaayttygtngcnacngaracngaygcnaaymgnggnaarytnccnggnaaraarytnccnytngcngtnathatggara tggargcnaaygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathc cnggnmgntgycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggn ttyaargaratggcnccnatggarcarttyathgcncargtngaymgntgygcnwsntgyacnacnggntgyytnaarggnytngcnaaygt naartgywsngarytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnat ggcnggngaymgn (nucleotide sequence encoding full-length Metridia longa 164M3 luciferase with M43L substitution); [SEQ ID NO: 33] atggayathaargtngtnttyacnytngtnttywsngcnytngtncargcnaarwsnacngarttygayccnaayat hgayathgtnggnytngarggnaarttyggnathacnaayytngaracngayytnttyacnathtgggaracnatggargtnatgathaargcn gayathgcngayacngaymgngcnwsnaayttygtngcnacngaracngaygcnaaymgnggnaarytnccnggnaaraarytnccny tngcngtnathatggaratggargcnaaygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcn aaratgaargtntayathccnggnmgntgycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngaya thccngarathwsnggnttyaargaratggcnccnatggarcarttyathgcncargtngaymgntgygcnwsntgyacnacnggntgyytn aarggnytngcnaaygtnaartgywsngarytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargt ncayaayathaarggnatggcnggngaymgn (nucleotide sequence encoding full-length Metridia longa 164v1 luciferase with M70L substitution); [SEQ ID NO: 35] atggayathaargtngtnttyacnytngtnttywsngcnytngtncargcnaarwsnacngarttygayccnaayat hgayathgtnggnytngarggnaarttyggnathacnaayytngaracngayytnttyacnathtgggaracnatggargtnatgathaargcn gayathgcngayacngaymgngcnwsnaayttygtngcnacngaracngaygcnaaymgnggnaarynccnggnaaraarytnccny tngcngtnathatggaratggargcnaaygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcn aaratgaargtntayathccnggnmgntgycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngaya thccngarathwsnggnttyaargaratggcnccnatggarcarttyathgcncargtngarmgntgygcnwsntgyacnacnggntgyytn aarggnytngcnaaygtnaartgywsngarytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargt ncayaayathaarggnatggcnggngaymgn (nucleotide sequence encoding full-length Metridia longa 164v2 luciferase with M80L substitution); [SEQ ID NO: 37] atggayatgaargtnathttygcnytnathttywsngcnytngtncargcnaarwsnacngarttygayccnaayat hgayathgtnggnytngarggnaarttyggnathacnaayytngaracngayytnttyacnathtgggaracnatggargtnathaarwsnga yathgcngayacngaymgngtnwsnaayttygtngcnacngaracngaygcnaaymgnggnaarytnccnggnaaraarytnccnytng cngtnathatggaratggargcnaaygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaar atgaargtntayathccnggnmgntgycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathc cngarathwsnggnttyaargaratggcnccnatggarcarttyathgcncargtngaymgntgyacnwsntgyacnacnggntgyytnaar ggnytngcnaaygtnaartgywsngarytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtnca yaayathaarggnatggcnggngaymgn (nucleotide sequence encoding full-length Metridia longa 16 with M79L substitution); [SEQ ID NO: 39] atggayathaargtngtnttygcnytngtnttywsngcnytngtncargcnaarwsnacngarttygayccnaaya thgayathgtnggnytngarggnaarttyggnathacnaayytngaracngayytnttyacnathtgggaracnatggargtnathaaracnga yathgcngayacngaymgngcnmgnwsnttygtngcnacngaracngaygcnaaymgnggnaarytnccnggnaaraarytnccnytn gcngtnathatggaratggargcnaaygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaa ratgaargtntayathccnggnmgntgycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayath ccngarathwsnggnttyaargaratggarccnatggarcarttyathgcncargtngaymgntgygcnwsntgyacnacnggntgyytnaa rggnytngcnaaygtnaartgywsngarytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtnc ayaayathaarggnatggcnggngaymgn (nucleotide sequence encoding full-length Metridia longa 45 luciferase with M79L substitution); [SEQ ID NO: 41] atggayathaargtngtnttygcnytngtnttywsngcnytngtncargcnaarwsnacngarttygayccnaaya thgaygtngtnggnytngarggnaarttyggnathacnaayytngaracngayytnttyacnathtgggaracnatggargtnathaaracnga yathgcngayacngaymgngcnmgnaayttygtngcnacngaracngaygcnaaymgnggnaarytnccnggnaaraarytnccnytn gcngtnathatggaratggargcnaaygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaa ratgaargtntayathccnggnmgntgycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayath ccngarathwsnggnttyaargaratggarccnatggarcarttyathgcncargtngaymgntgygcnwsntgyaayacnggntgyytnaa rggnytngcnaaygtnaartgywsngarytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtnc ayaayathaarggnatggcnggngaymgn (nucleotide sequence encoding full-length Metridia longa 52 luciferase with M79L substitution); or [SEQ ID NO: 43] atggayatgmgngtnathttygcnytngtnttywsnwsnytngtncargcnaarwsnacngarttygayccnaay athaayathgtnggnytngarggnaarttyggnathacnaayytngaracngayytnttyacnathtgggaracnatggaygtnathaarwsng ayathacngayacngaymgngtnwsnaayttygtngcnacngaracngaygcnaaymgnggnaarytnccnggnaaraarytnccnytn gcngtnathatggaratggargcnaaygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaa ratgaargtntayathccnggnmgntgycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayath ccngarathwsnggnttyaargaratggcnccnatggarcarttyathgcncargtngayytntgygcnacntgyacnacnggntgyytnaarg gnytngcnaaygtnaartgywsngarytnytnaaraartggytnccnggnmgntgygcnwsnttygcngayaarathcaraargargtncay aayathaarggnatggcnggngaymgn (nucleotide sequence encoding full-length Metridia longa AL luciferase with M79L substitution);

or a complement of any one of 11, 13, 15, 17, 19, 21, 23, 25, 27, 29, 31, 33, 35, 37, 39, 41 or 43;

(d) an amino acid sequence which is encoded by a nucleotide sequence that shares at least 70% (and at least 71% to at least 99% and all integer percentages in between) sequence identity with the sequence set forth in any one of SEQ ID NO: 11, 13, 15, 17, 19, 21, 23, 25, 27, 29, 31, 33, 35, 37, 39, 41 or 43, or a complement thereof, wherein the amino acid sequence comprises L, or modified form thereof, at a position corresponding to position 1 of formula I; or

(e) an amino acid sequence which is encoded by a nucleotide sequence that hybridizes under at least medium or high stringency conditions to the sequence set forth in any one of SEQ ID NO: 11, 13, 15, 17, 19, 21, 23, 25, 27, 29, 31, 33, 35, 37, 39, 41 or 43, or a complement thereof, wherein the amino acid sequence comprises L, or modified form thereof, at a position corresponding to position 1 of formula I.

In some embodiments, the polypeptides lack a functional secretion-enhancing sequence. In illustrative examples of this type, the polypeptides comprise, consist or consist essentially of an amino acid sequence selected from:

(a) an amino acid sequence selected from:

SEQ ID NO: 46 DLDADRGKLPGKKLPLEVLKEMEANARKAGCTRGCLICLSHIKCTPKMKK FIPGRCHTYEGDKESAQGGIGEAIVDIPEIPGFKDLEPMEQFIAQVDLCVDCTTGCLKGLANVQ CSDLLKKWLPQRCATFASKIQGQVDKIKGAGGD, [intracellular Gaussia princeps Prolume luciferase]; SEQ ID NO: 48 DLDADRGKLPGKKLPLEVLKEMEANARKAGCTRGCLICLSHIKCTPKMKK FIPGRCHTYEGDKESAQGGIGEAIVDIPEIPGFKDLEPMEQFIAQVDLCVDCTTGCLKGLANVQ CSDLLKKWLPQRCATFASKIQGQVDKIKGAGGDKDEL, [intracellular Gaussia princeps Prolume KDEL luciferase]; SEQ ID NO: 50 DLDADRGKLPGKKLPLEVLKEIEANARKAGCTRGCLICLSHIKCTPKMKKF IPGRCHTYEGDKESAQGGIGEAIVDIPEIPGFKDLEPMEQFIAQVDLCVDCTTGCLKGLANVQC SDLLKKWLPQRCATFASKIQGQVDKIKGAGGD, [intracellular Gaussia princeps Mutant 1 luciferase]; SEQ ID NO: 52 DLDADRGKLPGKKLPLEVLKELEANARKAGCTRGCLICLSHIKCTPKMKK FIPGRCHTYEGDKESAQGGIGEAIVDIPEIPGFKDLEPLEQFIAQVDLCVDCTTGCLKGLANVQ CSDLLKKWLPQRCATFASKIQGQVDKIKGAGGD, [intracellular Gaussia princeps Mutant 2 luciferase]; SEQ ID NO: 54 DVDANRGGHGGLPGKKMPKEVLVEMEANAKRAGCHRGCLICLSHIKCTK KMKKFIPGRCHSYEGDKDSAQGGIGEEIVDMPEIPGFKDKEPMDQFIAQVDLCVDCTTGCLK GLANVHCSALLKKWLPSRCKTFASKIQSQVDTIKGLAGDR, [intracellular Metridia pacifica 2a luciferase with H50L substitution]; SEQ ID NO: 56 DVDANRGGHGGLPGKKMPKEVLVEMEANAKRAGCHRGCLICLSHIKCTK KMKKFIPGRCHSYEGDKDSAQGGIGEEIVDMPEIPGFKDKEPMDQFIAQVDLCVDCTTGCLK GLANVHCSDLLKKWLPSRCKTFASKIQSQVDTIKGLAGDR, [intracellular Metridia pacifica 2bv1 luciferase with H50L substitution]; SEQ ID NO: 58 DVDANRGGHGGLPGKKMPKEVPVEMEANAKRAGCHRGCLICLSHIKCTK KMKKFIPGRCHSYEGDKDSAQGGIGEEIVDMPEIPGFKDKEPMDQFIAQVDLCVDCTTGCLK GLANVHCSDLLKKWLPSRCKTFASKIQSQVDTIKGLAGDR, [intracellular Metridia pacifica 2bv2 luciferase with H50L substitution]; SEQ ID NO: 60 DVDANRGGHGGLPGKKMPKEVLMEMEANAKRAGCHRGCLVCLSHIKCT AQMQKFIPGRCHSYAGDKDSAQGGIAGGAIVDIPEIAGFKEMKPMEQFIAQVDLCEDCTTGCL KGLANVHCSDLLKKWLPSRCKTFASKIQSQVDTIKGLAGDR, [intracellular Metridia longa 22 luciferase with H50L substitution]; and SEQ ID NO: 62 NSDADRGKLPGKKLPLEVLIEMEANARKAGCTRGCLICLSKIKCTAKMKV YIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKELGPMEQFIAQVDLCADCTTGCLKGLANV KCSALLKKWLPDRCASFADKIQSEVDNIKGLAGDR, [intracellular Metridia pacifica v1&2&3 luciferases with M71L substitution]; SEQ ID NO: 64 NTDSNRGKLPGKKLPLAVLIEMEANAFKAGCTRGCLICLSKIKCTAKMKK YIPGRCHDYGGDKKTGQAGIVGAIVDIPDISGFKEMGPMEQFIAQVDRCTDCTTGCLKGLAN VKCSELLKKWLPDRCASFADKIQSEVHNIKGLAGDR, [intracellular Metridia longa 39 luciferase with M70L substitution]; SEQ ID NO: 66 NNDVNRGKLPGKKLPLEVLIEMEANAFKAGCTRGCLICLSKIKCTAKMKQ YIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMEPMEQFIAQVDLCADCTTGCLKGLANV KCSELLKKWLPDRCASFADKIQKEAHNIKGLAGDR, [intracellular Metridia longa 7 luciferase with M30L substitution]; [SEQ ID NO: 68] ETDANRGKLPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMKV YIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDRCASCTTGCLKGLANV KCSELLKKWLPDRCASFADKIQKEVHNIKGMAGDR (intracellular Metridia longa GS luciferase with M26L substitution); SEQ ID NO: 70 ETDANRGKLPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMKV YIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDRCASCTTGCLKGLANV KCSELLKKWLPDRCASFADKIQKEVHNIKGMAGDR, [intracellular Metridia longa 164M3&v1 luciferases with M43L substitution relative to the  numbering of full-length Metridia longa 164M3]; SEQ ID NO: 72 ETDANRGKLPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMKV YIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVERCASCTTGCLKGLANV KCSELLKKWLPDRCASFADKIQKEVHNIKGMAGDR, [intracellular Metridia longa 164v2 luciferase with M80L substitution]; SEQ ID NO: 74 ETDANRGKLPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMKV YIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDRCTSCTTGCLKGLANV KCSELLKKWLPDRCASFADKIQKEVHNIKGMAGDR, [intracellular Metridia longa 16 luciferase with M79L substitution]; SEQ ID NO: 76 ETDANRGKLPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMKV YIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMEPMEQFIAQVDRCASCTTGCLKGLANV KCSELLKKWLPDRCASFADKIQKEVHNIKGMAGDR, [intracellular Metridia longa 45 luciferase with M79L substitution]; SEQ ID NO: 78 ETDANRGKLPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMKV YIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMEPMEQFIAQVDRCASCNTGCLKGLANV KCSELLKKWLPDRCASFADKIQKEVHNIKGMAGDR, [intracellular Metridia longa 52 luciferase with M79L substitution]; SEQ ID NO: 80 ETDANRGKLPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMKV YIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDLCATCTTGCLKGLANV KCSELLKKWLPGRCASFADKIQKEVHNIKGMAGDR, [intracellular Metridia longa AL luciferase with M79L substitution]; SEQ ID NO: 82 EAEAERGKLPGKKLPLEVLIEMEANARKAGCTRGCLICLSKIKCTAKMKK YIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKEMEPMEQFIAQVDRCADCTTGCLKGLANV KCSDLLKKWLPGRCATFADKIQSEVDNIKGLAGDR, [intracellular Metridia longa GS2 luciferase];

(b) an amino acid sequence that shares at least 70% (and at least 71% to at least 99% and all integer percentages in between) sequence similarity or sequence identity with the sequence set forth in any one of SEQ ID NO: 46, 48, 50. 52, 54, 56, 58, 60, 62, 64, 66, 68, 70, 72, 74, 76, 78, 80 or 82, wherein the amino acid sequence comprises L, or modified form thereof, at a position corresponding to position 1 of formula I; or

(c) an amino acid sequence which is encoded by the nucleotide sequence set forth in any one of:

[SEQ ID NO: 45] gayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargtnytnaargaratggargcnaa ygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaaratgaaraarttyathccnggnmg ntgycayacntaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathccngarathccnggnttyaargay ytngarccnatggarcarttyathgcncargtngayytntgygtngaytgyacnacnggntgyytnaarggnytngcnaaygtncartgywsn gayytnytnaaraartggytnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaarathaarggngcnggnggng ay (nucleotide sequence encoding intracellular Gaussia princeps Prolume luciferase); [SEQ ID NO: 47] gayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargtnytnaargaratggargcnaa ygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaaratgaaraarttyathccnggnmg ntgycayacntaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathccngarathccnggnttyaargay ytngarccnatggarcarttyathgcncargtngayytntgygtngaytgyacnacnggntgyytnaarggnytngcnaaygtncartgywsn gayytnytnaaraartggytnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaarathaarggngcnggnggng ayaargaygarytn (nucleotide sequence encoding intracellular Gaussia princeps Prolume  KDEL luciferase); [SEQ ID NO: 49] gayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargtnytnaargarathgargcnaa ygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaaratgaaraarttyathccnggnmg ntgycayacntaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathccngarathccnggnttyaargay ytngarccnatggarcarttyathgcncargtngayytntgygtngaytgyacnacnggntgyytnaarggnytngcnaaygtncartgywsn gayytnytnaaraartggytnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaarathaarggngcnggnggng ay (nucleotide sequence encoding intracellular Gaussia princeps Mutant 1 luciferase); [SEQ ID NO: 51] gayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargtnytnaargarytngargcnaa ygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaaratgaaraarttyathccnggnmg ntgycayacntaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathccngarathccnggnttyaargay ytngarccnytngarcarttyathgcncargtngayytntgygtngaytgyacnacnggntgyytnaarggnytngcnaaygtncartgywsn gayytnytnaaraartggytnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaarathaarggngcnggnggng ay (nucleotide sequence encoding intracellular Gaussia princeps Mutant 2 luciferase); [SEQ ID NO: 53] gaygtngaygcnaaymgnggnggncayggnggnytnccnggnaaraaratgccnaargargtnytngtngara tggargcnaaygcnaarmgngcnggntgycaymgnggntgyytnathtgyytnwsncayathaartgyacnaaraaratgaaraarttyath ccnggnmgntgycaywsntaygarggngayaargaywsngcncarggnggnathggngargarathgtngayatgccngarathccngg nttyaargayaargarccnatggaycarttyathgcncargtngayytntgygtngaytgyacnacnggntgyytnaarggnytngcnaaygtn caytgywsngcnytnytnaaraartggytnccnwsnmgntgyaaracnttygcnwsnaarathcarwsncargtngayacnathaarggny tngcnggngaymgn (nucleotide sequence encoding intracellular Metridia pacifica 2a luciferase with H50L substitution); [SEQ ID NO: 55] gaygtngaygcnaaymgnggnggncayggnggnytnccnggnaaraaratgccnaargargtnytngtngara tggargcnaaygcnaarmgngcnggntgycaymgnggntgyytnathtgyytnwsncayathaartgyacnaaraaratgaaraarttyath ccnggnmgntgycaywsntaygarggngayaargaywsngcncarggnggnathggngargarathgtngayatgccngarathccngg nttyaargayaargarccnatggaycarttyathgcncargtngayytntgygtngaytgyacnacnggntgyytnaarggnytngcnaaygtn caytgywsngayytnytnaaraartggytnccnwsnmgntgyaaracnttygcnwsnaarathcarwsncargtngayacnathaarggny tngcnggngaymgn (nucleotide sequence encoding intracellular Metridia pacifica 2bv1 luciferase with H50L substitution); [SEQ ID NO: 57] gaygtngaygcnaaymgnggnggncayggnggnytnccnggnaaraaratgccnaargargtnccngtngar atggargcnaaygcnaarmgngcnggntgycaymgnggntgyytnathtgyytnwsncayathaartgyacnaaraaratgaaraarttyat hccnggnmgntgycaywsntaygarggngayaargaywsngcncarggnggnathggngargarathgtngayatgccngarathccng gnttyaargayaargarccnatggaycarttyathgcncargtngayytntgygtngaytgyacnacnggntgyytnaarggnytngcnaaygt ncaytgywsngayytnytnaaraartggytnccnwsnmgntgyaaracnttygcnwsnaarathcarwsncargtngayacnathaarggn ytngcnggngaymgn (nucleotide sequence encoding intracellular Metridia pacifica 2bv2 luciferase with H50L substitution); [SEQ ID NO: 59] gaygtngaygcnaaymgnggnggncayggnggnytnccnggnaaraaratgccnaargargtnytnatggara tggargcnaaygcnaarmgngcnggntgycaymgnggntgyytngtntgyytnwsncayathaartgyacngcncaratgcaraarttyat hccnggnmgntgycaywsntaygcnggngayaargaywsngcncarggnggnathgcnggnggngcnathgtngayathccngarath gcnggnttyaargaratgaarccnatggarcarttyathgcncargtngayytntgygargaytgyacnacnggntgyytnaarggnytngcna aygtncaytgywsngayytnytnaaraartggytnccnwsnmgntgyaaracnttygcnwsnaarathcarwsncargtngayacnathaa rggnytngcnggngaymgn (nucleotide sequence encoding intracellular Metridia longa 22 luciferase with H50L substitution); [SEQ ID NO: 61] aaywsngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargtnytnathgaratggargcna aygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnm gntgycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaarga rytnggnccnatggarcarttyathgcncargtngayytntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgyws ngcnytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcarwsngargtngayaayathaarggnytngcnggn gaymgn (nucleotide sequence encoding intracellular Metridia pacifica v1&2&3 luciferase with M71L substitution); [SEQ ID NO: 63] aayacngaywsnaaymgnggnaarytnccnggnaaraarytnccnytngcngtnytnathgaratggargcna aygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaaraarayathccnggnmg ntgycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngayathwsnggnttyaargar atgggnccnatggarcarttyathgcncargtngaymgntgyacngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgyws ngarytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcarwsngargtncayaayathaarggnytngcnggn gaymgn (nucleotide sequence encoding intracellular Metridia longa 39 luciferase with M70L substitution); [SEQ ID NO: 65] aayaaygaygtnaaymgnggnaarytnccnggnaaraarytnccnytngargtnytnathgaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaarcartayathccnggnmgnt gycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggarccnatggarcarttyathgcncargtngayytntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsng arytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargcncayaayathaarggnytngcnggngay mgn (nucleotide sequence encoding intracellular Metridia longa 7 luciferase with M30L substitution); [SEQ ID NO: 67] garacngaygcnaaymgnggnaarytnccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgnt gycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggcnccnatggarcarttyathgcncargtngaymgntgygcnwsntgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsn garytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggnga ymgn (nucleotide sequence encoding intracellular Metridia longa GS luciferase with M26L substitution); [SEQ ID NO: 69] garacngaygcnaaymgnggnaarytnccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgnt gycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggcnccnatggarcarttyathgcncargtngaymgntgygcnwsntgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsn garytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggnga ymgn (nucleotide sequence encoding intracellular Metridia longa 164M3&v1 luciferase with  M43L substitution relative to the numbering of full-length Metridia longa 164M3); [SEQ ID NO: 71] garacngaygcnaaymgnggnaarytnccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgnt gycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggcnccnatggarcarttyathgcncargtngarmgntgygcnwsntgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsn garytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggnga ymgn (nucleotide sequence encoding intracellular Metridia longa 164v2 luciferase with M80L substitution); [SEQ ID NO: 73] garacngaygcnaaymgnggnaarytnccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgnt gycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggcnccnatggarcarttyathgcncargtngarmgntgygcnwsntgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsn garytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggnga ymgn (nucleotide sequence encoding intracellular Metridia longa 16 luciferase with M79L substitution); [SEQ ID NO: 75] garacngaygcnaaymgnggnaarytnccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgnt gycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggarccnatggarcarttyathgcncargtngaymgntgygcnwsntgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsn garytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggnga ymgn (nucleotide sequence encoding intracellular Metridia longa 45 luciferase with M79L substitution]; [SEQ ID NO: 77] garacngaygcnaaymgnggnaarytnccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgnt gycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggarccnatggarcarttyathgcncargtngaymgntgygcnwsntgyaayacnggntgyytnaarggnytngcnaaygtnaartgywsn garytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggnga ymgn (nucleotide sequence encoding intracellular Metridia longa 52 luciferase with M79L substitution); [SEQ ID NO: 79] garacngaygcnaaymgnggnaarytnccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgnt gycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggcnccnatggarcarttyathgcncargtngayytntgygcnacntgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsng arytnytnaaraartggytnccnggnmgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggngay mgn (nucleotide sequence encoding intracellular Metridia longa AL luciferase with M79L substitution); or [SEQ ID NO: 81] gargcngargcngarmgnggnaarytnccnggnaaraarytnccnytngargtnytnathgaratggargcnaay gcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaaraartayathccnggnmgn tgygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggarccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsn gayytnytnaaraartggytnccnaaymgntgygcnwsnttygcngayaarathcarwsngargtngayaayathaarggnytngcnggng aymgn (nucleotide sequence encoding intracellular Metridia longa GS2 luciferase);

or a complement of any one of 45, 47, 49, 51, 53, 55, 57, 59, 61, 63, 65, 67, 69, 71, 73, 75, 77, 79 or 81,

wherein the amino acid sequence comprises L, or modified form thereof, at a position corresponding to position 1 of formula I;

(d) an amino acid sequence which is encoded by a nucleotide sequence that shares at least 70% (and at least 71% to at least 99% and all integer percentages in between) sequence identity with the sequence set forth in any one of SEQ ID NO: 45, 47, 49, 51, 53, 55, 57, 59, 61, 63, 65, 67, 69, 71, 73, 75, 77, 79 or 81, or a complement thereof, wherein the amino acid sequence comprises L, or modified form thereof, at a position corresponding to position 1 of formula I; or

(e) an amino acid sequence which is encoded by a nucleotide sequence that hybridizes under at least medium or high stringency conditions to the sequence set forth in any one of SEQ ID NO: 45, 47, 49, 51, 53, 55, 57, 59, 61, 63, 65, 67, 69, 71, 73, 75, 77, 79 or 81, or a complement thereof, wherein the amino acid sequence comprises L, or modified form thereof, at a position corresponding to position 1 of formula I.

In some embodiments, the polypeptides comprise, consist or consist essentially of an amino acid sequence represented by formula III: Z₁-Π-Z₂  (III)

wherein:

Π is selected from the amino acid sequence represented by formula I or an amino acid sequence that shares at least 70% (and at least 71% to at least 99% and all integer percentages in between) sequence similarity or sequence identity with the amino acid sequence represented by formula I, wherein the amino acid sequence comprises L, or modified form thereof, at a position corresponding to position 1 of formula I;

Z₁ is absent or is selected from at least one of a proteinaceous moiety comprising from about 1 to about 80 amino acid residues (and all integer residues therebetween), an amino acid residue for initiation of protein synthesis in vivo (e.g., M or modified form thereof), and a protecting moiety (e.g., an N-terminal blocking residue such as pyroglutamate); and

Z₂ is absent or is a proteinaceous moiety comprising from about 1 to about 50 amino acid residues (and all integer residues therebetween).

Suitably, Z₁ comprises, consists or consists essentially of a signal peptide for secreting the polypeptide to an extracellular location. In some embodiments, the signal peptide comprises an amino acid sequence represented by formula IV: U₁X₆₀X₆₁X₆₂X₆₃X₆₄X₆₅FX₆₆X₆₇X₆₈X₆₉X₇₀X₇₁X₇₂X₇₃X₇₄A  (IV)

-   -   wherein:     -   U₁ is absent or is selected from at least one of an amino acid         residue for initiation of protein synthesis in vivo (e.g., M, or         modified form thereof) and an N-terminal blocking residue;     -   X₆₀ is absent or is an amino acid residue for initiation of         protein synthesis in vivo (e.g., M or modified form thereof);     -   X₆₁ is selected from small amino acid residues (e.g., G, or         modified forms thereof) or acidic amino acid residues (e.g., E         or D, or modified forms thereof);     -   X₆₂ is selected from hydrophobic amino acid residues (e.g.,         aliphatic amino acid residues such as V, I or M, or modified         form thereof);     -   X₆₃ is selected from basic amino acid residues (e.g., K, or         modified form thereof) or neutral/polar amino acid residues         (e.g., Q, or modified form thereof);     -   X₆₄ is selected from hydrophobic amino acid residues including         aliphatic amino acid residues (e.g., V or L, or modified form         thereof) and aromatic amino acid residues (e.g., F, or modified         form thereof);     -   X₆₅ is selected from hydrophobic amino acid residues (e.g.,         aliphatic amino acid residues such as L, V or I, or modified         form thereof);     -   X₆₆ is selected from small amino acid residues (e.g., A or T, or         modified forms thereof);     -   X₆₇ is selected from hydrophobic amino acid residues (e.g.,         aliphatic amino acid residues such as L or V, or modified form         thereof);     -   X₆₈ is selected from hydrophobic amino acid residues (e.g.,         aliphatic amino acid residues such as I, V or L, or modified         form thereof);     -   X₆₉ is selected from hydrophobic amino acid residues including         aliphatic amino acid residues (e.g., C, or modified form         thereof) and aromatic amino acid residues (e.g., F, or modified         form thereof);     -   X₇₀ is selected from hydrophobic amino acid residues including         aliphatic amino acid residues (e.g., I or V, or modified form         thereof) and aromatic amino acid residues (e.g., F, or modified         form thereof) or small amino acid residues (e.g., S, or modified         forms thereof);     -   X₇₁ is selected from small amino acid residues (e.g., A or S, or         modified forms thereof);     -   X₇₂ is selected from hydrophobic amino acid residues (e.g.,         aliphatic amino acid residues such as V or L, or modified form         thereof) or small amino acid residues (e.g., A, or modified         forms thereof);     -   X₇₃ is selected from small amino acid residues (e.g., A, or         modified forms thereof) or hydrophobic amino acid residues         (e.g., aliphatic amino acid residues such as V, or modified form         thereof); and     -   X₇₄ is selected from acidic amino acid residues (e.g., E, or         modified forms thereof) or neutral/polar amino acid residues         (e.g., Q, or modified form thereof).

Representative signal peptides comprise, consist or consist essentially of an amino acid sequence selected from the group consisting of:

(a)

MGVKVLFALICIAVAEA [SEQ ID NO: 84, signal peptide of Gaussia princeps Prolume, Prolume KDEL, Mutant 1 and Mutant 2], MGVKLIFAVLCVAAAQA [SEQ ID NO: 86, signal peptide of Metridia pacifica 2a, 2bv1, 2bv2 and Metridia longa 22 luciferases], MMEIQVLFALICFALVQA [SEQ ID NO: 88, signal peptide of Metridia pacifica 1v1 luciferase], MMELKVLFALICFALVQA [SEQ ID NO: 90, signal peptide of Metridia pacifica 1v2 luciferase], MMEVKVVFALICFALVQA [SEQ ID NO: 92, signal peptide of Metridia pacifica 1v3 luciferase], MDIKVLFALICIALVQA [SEQ ID NO: 94, signal peptide of Metridia longa 39 luciferase], MDIKFIFALVCIALVQA [SEQ ID NO: 96, signal peptide of Metridia longa 7 luciferase], MDIKVVFTLVFSALVQA [SEQ ID NO: 98, signal peptide of Metridia longa 164M3, v1 and v2 luciferases], MDMKVIFALIFSALVQA [SEQ ID NO: 100, signal peptide of Metridia longa 16 luciferase], MDIKVVFALVFSALVQA [SEQ ID NO: 102, signal peptide of Metridia longa 45 and 52 luciferases] or MDMRVIFALVFSSLVQA [SEQ ID NO: 104, signal peptide of Metridia longa AL luciferases];

(b) an amino acid sequence that shares at least 70% (and at least 71% to at least 99% and all integer percentages in between) sequence similarity or sequence identity with the sequence set forth in any one of SEQ ID NO: 84, 86, 88, 90, 92, 94, 96, 98, 100, 102 or 104;

(c) an amino acid sequence which is encoded by the nucleotide sequence set forth in any one of:

[SEQ ID NO: 83] atgggngtnaargtnytnttygcnytnathtgyathgcngtngcngargcn (nucleotide sequence encoding signal peptide of Gaussia princeps Prolume, Prolume KDEL, Mutant 1 or Mutant 2 luciferases); [SEQ ID NO: 85] atgggngtnaarytnathttygcngtnytntgygtngcngcngcncargcn (nucleotide sequence encoding signal peptide of Metridia pacifica 2a, 2bv1, 2bv2 or Metridia longa 22 luciferases); [SEQ ID NO: 87] atgatggarathcargtnytnttygcnytnathtgyttygcnytngtncargcn (nucleotide sequence encoding signal peptide of Metridia pacifica 1v1 luciferase); [SEQ ID NO: 89] atgatggarathaargtnytnttygcnytnathtgyttygcnytngtncargcn (nucleotide sequence encoding signal peptide of Metridia pacifica 1v2 luciferase); [SEQ ID NO: 91] atgatggargtnaargtngtnttygcnytnathtgyttygcnytngtncargcn (nucleotide sequence encoding signal peptide of Metridia pacifica 1v3 luciferase); [SEQ ID NO: 93] atggayathaargtnytnttygcnytnathtgyathgcnytngtncargcn (nucleotide sequence encoding signal peptide of Metridia longa 39 luciferase); [SEQ ID NO: 95] atggayathaarttyathttygcnytngtntgyathgcnytngtncargcn (nucleotide sequence encoding signal peptide of Metridia longa 7 luciferase); [SEQ ID NO: 97] atggayathaargtngtnttyacnytngtnttywsngcnytngtncargcn (nucleotide sequence encoding signal peptide of Metridia longa 164M3, v1 or v2 luciferases); [SEQ ID NO: 99] atggayatgaargtnathttygcnytnathttywsngcnytngtncargcn (nucleotide sequence encoding signal peptide of Metridia longa 16 luciferase); [SEQ ID NO: 101] atggayathaargtngtnttygcnytngtnttywsngcnytngtncargcn (nucleotide sequence encoding signal peptide of Metridia longa 45 and 52 luciferases), or [SEQ ID NO: 103] atggayatgmgngtnathttygcnytngtnttywsnwsnytngtncargcn (nucleotide sequence encoding signal peptide of Metridia longa AL luciferase);

or a complement of any one of SEQ ID NO: 83, 85, 87, 89, 91, 93, 95, 97, 99, 101 or 103;

(d) an amino acid sequence which is encoded by a nucleotide sequence that shares at least 70% (and at least 71% to at least 99% and all integer percentages in between) sequence identity with the sequence set forth in any one of SEQ ID NO: 83, 85, 87, 89, 91, 93, 95, 97, 99, 101 or 103, or a complement thereof; or

(e) an amino acid sequence which is encoded by a nucleotide sequence that hybridizes under at least medium or high stringency conditions to the sequence set forth in any one of SEQ ID NO: 83, 85, 87, 89, 91, 93, 95, 97, 99, 101 or 103, or a complement thereof.

In some embodiments, Z₁ comprises, consists or consists essentially of a secretion-enhancing sequence. Non-limiting examples of secretion-enhancing sequences are selected from the group consisting of:

(a) an amino acid sequence selected from:

KPTENNEDFNIVAVASNFATT [SEQ ID NO: 106, secretion-enhancing sequence of Gaussia princeps Prolume, Prolume KDEL, Mutant 1 and Mutant 2 luciferases], ATINENFEDIDVVAIGGSFAL [SEQ ID NO: 108, secretion-enhancing sequence of Metridia pacifica 2a luciferase], ATINENFEDIDLVAIGGSFAL [SEQ ID NO: 110, secretion-enhancing sequence of Metridia pacifica 2bv1&2 luciferases], ATIQENFEDIDLVAIGGSFAS [SEQ ID NO: 112, secretion-enhancing sequence of Metridia longa 22 luciferase], NPTENKDDIDIVGVEGKFGTTDLETDLFTIVEDMNVISRDTNLA [SEQ ID NO: 114, secretion-enhancing sequence of Metridia pacifica v1&2&3 luciferases], NPTENNDHINIVGIEGKFGITDLETDLFTIWETNRMISTDNEQA [SEQ ID NO: 116, secretion-enhancing sequence of Metridia longa 39]; NPTV [SEQ ID NO: 118, secretion-enhancing sequence of Metridia longa 7 luciferase]; KTDIADTDRASNFVAT [SEQ ID NO: 120, secretion-enhancing sequence of Metridia longa GS luciferase]; QKTDIADTDRASNFVAT [SEQ ID NO: 122, secretion-enhancing sequence of Metridia longa 164M3 luciferase]; KSTEFDPNIDIVGLEGKFGITNLETDLFTIWETMEVMIKADIADTDRASNEVAT [SEQ ID NO: 124, secretion-enhancing sequence of Metridia longa 164v1&2 luciferases]; KSTEFDPNIDIVGLEGKFGITNLETDLFTIWETMEVIKSDIADTDRVSNFVAT [SEQ ID NO: 126, secretion-enhancing sequence of Metridia longa 16 luciferase]; KSTEFDPNIDIVGLEGKFGITNLETDLFTIWETMEVIKTDIADTDRARSFVAT [SEQ ID NO: 128, secretion-enhancing sequence of Metridia longa 45 luciferase]; KSTEFDPNIDVVGLEGKFGITNLETDLFTIWETMEVIKTDIADTDRARNFVAT [SEQ ID NO: 130, secretion-enhancing sequence of Metridia longa 52 luciferase]; KSTEFDPNINIVGLEGKFGITNLETDLFTIWETMDVIKSDITDTDRVSNFVAT [SEQ ID NO: 132, secretion-enhancing sequence of Metridia longa AL luciferase]; or;

(b) an amino acid sequence that shares at least 70% (and at least 71% to at least 99% and all integer percentages in between) sequence similarity or sequence identity with the sequence set forth in any one of SEQ ID NO: 106, 107, 108, 110, 112, 114, 116, 118, 120, 122, 124, 126, 128, 130 or 132; or

(c) an amino acid sequence which is encoded by the nucleotide sequence set forth in any one of:

[SEQ ID NO: 105] aarccnacngaraayaaygargayttyaayathgtngcngtngcnwsnaayttygcnacnacn (nucleotide sequence encoding secretion-enhancing sequence of Gaussia princeps Prolume, Prolume KDEL, Mutant 1 and Mutant 2 luciferases); [SEQ ID NO: 107] gcnacnathaaygaraayttygargayathgaygtngtngcnathggnggnwsnttygcnytn (nucleotide sequence encoding secretion-enhancing sequence of Metridia pacifica 2a luciferase); [SEQ ID NO: 109] gcnacnathaaygaraayttygargayathgayytngtngcnathggnggnwsnttygcnytn (nucleotide sequence encoding secretion-enhancing sequence of Metridia pacifica 2bv1&2 luciferases); [SEQ ID NO: 111] gcnacnathcargaraayttygargayathgayytngtngcnathggnggnwsnttygcnwsn (nucleotide sequence encoding secretion-enhancing sequence of Metridia longa 22 luciferase); [SEQ ID NO: 113] aayccnacngaraayaargaygayathgayathgtnggngtngarggnaarttyggnacnacngayytngarac ngayytnttyacnathgtngargayatgaaygtnathwsnmgngayacnaayytngcn (nucleotide sequence encoding secretion-enhancing sequence of Metridia pacifica v1&2&3 luciferases); [SEQ ID NO: 115] aayccnacngaraayaaygaycayathaayathgtnggnathgarggnaarttyggnathacngayytngaracn gayytnttyacnathtgggaracnaaymgnatgathwsnacngayaaygarcargcn (nucleotide sequence encoding secretion-enhancing sequence of Metridia longa 39 luciferase); [SEQ ID NO: 117] aayccnacngtn (nucleotide sequence encoding secretion-enhancing sequence of Metridia longa GS); [SEQ ID NO: 119] aaracngayathgcngayacngaymgngcnwsnaayttygtngcnacn (nucleotide sequence encoding secretion-enhancing sequence of Metridia longa 7 luciferase); [SEQ ID NO: 121] caraaracngayathgcngayacngaymgngcnwsnaayttygtngcnacn (nucleotide sequence encoding secretion-enhancing sequence of Metridia longa 164M3 luciferase); [SEQ ID NO: 123] aarwsnacngarttygayccnaayathgayathgtnggnytngarggnaarttyggnathacnaayytngaracn gayytnttyacnathtgggaracnatggargtnatgathaargcngayathgcngayacngaymgngcnwsnaayttygtngcnacn (nucleotide sequence encoding secretion-enhancing sequence of Metridia longa 164v1&2 luciferases); [SEQ ID NO: 125] aarwsnacngarttygayccnaayathgayathgtnggnytngarggnaarttyggnathacnaayytngaracn gayytnttyacnathtgggaracnatggargtnathaarwsngayathgcngayacngaymgngtnwsnaayttygtngcnacn (nucleotide sequence encoding secretion-enhancing sequence of Metridia longa 16 luciferase); [SEQ ID NO: 127] aarwsnacngarttygayccnaayathgayathgtnggnytngarggnaarttyggnathacnaayytngaracn gayytnttyacnathtgggaracnatggargtnathaaracngayathgcngayacngaymgngcnmgnwsnttygtngcnacn (nucleotide sequence encoding secretion-enhancing sequence of Metridia longa 45 luciferase); [SEQ ID NO: 129] aarwsnacngarttygayccnaayathgaygtngtnggnytngarggnaarttyggnathacnaayytngaracn gayytnttyacnathtgggaracnatggargtnathaaracngayathgcngayacngaymgngcnmgnaayttygtngcnacn (nucleotide sequence encoding secretion-enhancing sequence of Metridia longa 52 luciferase); [SEQ ID NO: 131] aarwsnacngarttygayccnaayathaayathgtnggnytngarggnaarttyggnathacnaayytngaracn gayytnttyacnathtgggaracnatggaygtnathaarwsngayathacngayacngaymgngtnwsnaayttygtngcnacn (nucleotide sequence encoding secretion-enhancing sequence of Metridia longa AL luciferase),

or a complement of any one of 105, 107, 109, 111, 113, 115, 117, 119, 121, 123, 125, 127, 129 or 131;

(d) an amino acid sequence which is encoded by a nucleotide sequence that shares at least 70% (and at least 71% to at least 99% and all integer percentages in between) sequence identity with the sequence set forth in any one of SEQ ID NO: 105, 107, 109, 111, 113, 115, 117, 119, 121, 123, 125, 127, 129 or 131, or a complement thereof; or

(e) an amino acid sequence which is encoded by a nucleotide sequence that hybridizes under at least medium or high stringency conditions to the sequence set forth in any one of SEQ ID NO: 105, 107, 109, 111, 113, 115, 117, 119, 121, 123, 125, 127, 129 or 131, or a complement thereof.

In some embodiments, X₁₇ is other than H.

In some embodiments, X₁₇ is selected from small amino acid residues (e.g., A, S or T, or modified form thereof) or acidic amino acid residues (e.g., E or modified form thereof).

In specific embodiments, X₁₇ is A or modified form thereof.

In some embodiments, the subsequence B₁C₅X₁₇X₁₈ consists of an amino acid sequence represented by formula V: BCΩΩ  (V) wherein:

-   -   B is selected from basic amino acid residues (e.g., R or K, or         modified form thereof); and     -   Ω is selected from small amino acid residues (e.g., A, S or T,         or modified form thereof) or acidic amino acid residues (e.g., D         or E, or modified form thereof)

In specific embodiments, X₁₇ is A or modified form thereof.

In some embodiments, X₁₈ is selected from small amino acid residues (e.g., T or S, or modified form thereof).

In some embodiments, the subsequence B₁C₅X₁₇X₁₈ is selected from RCAD, KCAD, RCED, KCED, RCSD, KCSD, RCTD, KCTD, RCAT and RCAS.

In some embodiments, X₃₆ is selected from basic amino acid residues (e.g., R or K, or modified form thereof) or neutral polar amino acid residues (e.g., Q or modified form thereof).

In some embodiments, X₃₇ is selected from A or E, or modified form.

In some embodiments, X₃₈ is D or modified form thereof.

In some embodiments, the subsequence X₃₆C₆X₃₇X₃₈ is selected from RCAD, KCAD, RCED, KCED, RCSD, KCSD, RCTD and KCTD, suitably from RCAD and RCED.

In some embodiments, X₄₀ is selected from basic amino acid residues (e.g., K or R, or modified form thereof).

In some embodiments, Σ is selected from S or T, or modified form thereof.

In some embodiments, X₄₁ is selected from D, or modified form thereof.

In some embodiments, the subsequence X₄₀C₉ΣX₄₁ is KCSD.

In some embodiments, at least one subsequence of the polypeptides selected from B₁C₅X₁₇X₁₈, X₃₆C₆X₃₇X₃₈ and X₄₀C₉ΣX₄₁ consists of an amino acid sequence represented by formula VI: BCΩD  (VI) wherein:

B is selected from basic amino acid residues (e.g., R or K, or modified form thereof); and

Ω is selected from small amino acid residues (e.g., A, S or T, or modified form thereof) or acidic amino acid residues (e.g., E, or modified form thereof).

In illustrative examples of this type, the subsequence B₁C₅X₁₇X₁₈ is selected from RCAD, KCAD, RCED, KCED, RCSD, KCSD, RCTD and KCTD.

In illustrative examples, the subsequence X₃₆C₆X₃₇X₃₈ is selected from RCAD, KCAD, RCED, KCED, RCSD, KCSD, RCTD and KCTD.

In illustrative examples, the subsequence X₄₀C₉ΣX₄₁ consists of the sequence KCSD.

In some embodiments, X₄₂ is other than D or P and is suitably selected from R or K or modified form thereof, more suitably H or modified form thereof, even more suitably T, A, S or N or modified form thereof, preferably Q or modified form thereof, more preferably G or modified form thereof, even more preferably E or modified form thereof.

In some embodiments, at least 1, 2, 3 or all 4 subsequence(s) selected from B₁C₅X₁₇X₁₈, X₃₆C₆X₃₇X₃₈, X₄₀C₉ΣX₄₁ and B₂C₁₀X₄₃X₄₄ consist(s) of an amino acid sequence represented by formula V (i.e., BCΩΩ) as defined above. In illustrative examples of this type, the amino acid sequence represented by formula V is selected from BCAD (e.g., RCAD, KCAD), BCAT (e.g., RCAT, KCAT), BCED (e.g., RCED, KCED), BCSD (e.g., RCSD, KCSD), BCTD (e.g., RCTD, KCTD), and BCAS (e.g., RCAS, KCAS).

In some embodiments, one or both of X₃₆C₆ and X₄₀C₉ consists of an amino acid sequence represented by formula XIII: BC  (XIII) wherein:

B is selected from basic amino acid residues (e.g., R or K, or modified form thereof).

In some illustrative examples of these embodiments, at least 1, 2, 3 or all subsequence(s) selected from B₁C₅, X₃₆C₆, X₄₀C₉ and B₂C₁₀ are present within a subsequence consisting of the amino acid sequence represented by formula XIV: BCΩ  (XIV) wherein:

B is selected from basic amino acid residues (e.g., R or K, or modified form thereof); and

Ω is selected from small amino acid residues (e.g., A, S or T, or modified form thereof) or acidic amino acid residues (e.g., E, or modified form thereof).

In these examples, BCΩ suitably consists of a sequence selected from BCA or BCE.

In some embodiments, at least 1, 2, 3 or all subsequence(s) selected from B₁C₅X₁₇, X₃₆C₆X₃₇, X₄₀C₉Σ and B₂C₁₀X₄₃ consist of an amino acid sequence represented by formula XV: BCA  (XV) wherein:

B is selected from basic amino acid residues (e.g., R or K, or modified form thereof).

In some illustrative examples of these embodiments, the amino acid sequence BCA is present within a subsequence selected from BCAD or BCAT. In these examples, the subsequence B₁C₅X₁₇X₁₈ is suitably represented by BCAD or BCAT. Suitably, the subsequence B₂C₁₀X₄₃ is represented by BCAT.

In some illustrative examples of these embodiments, the amino acid sequence BCA is present within the subsequence GBCAT. In these examples, the subsequence GBCAT suitably represents one or both of the subsequences GB₁C₅X₁₇X₁₈ and X₄₂B₂C₁₀X₄₃.

In some embodiments, X₄₂ is other than D or P and is suitably selected from R or K or modified form thereof, more suitably H or modified form thereof, even more suitably T, A, S or N or modified form thereof, preferably Q or modified form thereof, more preferably G or modified form thereof, even more preferably E or modified form thereof. In some illustrative examples of these embodiments, the subsequence B₂C₁₀X₄₃ is represented by BCA or the subsequence B₂C₁₀X₄₃X₄₄ is represented by BCAT.

In some embodiments, one or both of X₃₅X₃₆C₆ and X₄₂B₂C₁₀ consists of an amino acid sequence represented by formula XVI: EBC  (XVI) wherein:

B is selected from basic amino acid residues (e.g., R or K, or modified form thereof).

In some embodiments, X₄₂B₂C₁₀ consists of an amino acid sequence represented by formula XVII: GBC  (XVII) wherein:

B is selected from basic amino acid residues (e.g., R or K, or modified form thereof).

In some illustrative examples of these embodiments, one or both of GB₁C and X₄₂B₂C₁₀ are present within a subsequence represented by formula XVIII: GBCΩ  (XVIII) wherein:

B is selected from basic amino acid residues (e.g., R or K, or modified form thereof); and

Ω is selected from small amino acid residues (e.g., A, S or T, or modified form thereof) or acidic amino acid residues (e.g., E, or modified form thereof).

Suitably, GBCΩ is GBCA.

In some illustrative examples of these embodiments, one or both of GB₁C and X₄₂B₂C₁₀ are present within a subsequence represented by formula XIX: GBCΩΩ  (XIX) wherein:

B is selected from basic amino acid residues (e.g., R or K, or modified form thereof); and

Ω is selected from small amino acid residues (e.g., A, S or T, or modified form thereof) or acidic amino acid residues (e.g., E, or modified form thereof).

Suitably, GBCΩΩ is GBCAT.

In the some embodiments, the polypeptides may optionally comprise any one or more of a signal sequence for secreting the polypeptide to an extracellular location and a secretion-enhancing sequence.

In some embodiments, polypeptides comprising an amino acid sequence according to formula I as broadly described above have any one or more activities selected from the group consisting of enhanced luminescence, stronger flash signal intensity, enhanced glow signal intensity, enhanced stability of glow signal and enhanced effective temperature range, including elevated optimal temperature range, for operation of the enzyme to a reference luciferase polypeptide without L at position 85 (relative to the consensus numbering shown in FIG. 1) (e.g., relative to any one or more of the following luciferases: Metridia pacifica 2a, Metridia pacifica 2bv1&2, Metridia longa 22, Metridia pacifica v1&2&, Metridia longa 39, Metridia longa GS Metridia longa 7, Metridia longa 164M3, Metridia longa 164v1&2, Metridia longa 16, Metridia longa 45, Metridia longa 52 and Metridia longa AL).

In another aspect, the present invention provides isolated, synthetic, recombinant or purified nucleic acid molecules that comprise, consist or consist essentially of a nucleotide sequence encoding the amino acid sequence of a polypeptide according to formula I as broadly described above, including a polypeptide according to formula I as further defined by any one or more of the embodiments relating to formula I. In some embodiments, the nucleic acid molecules comprise, consist or consist essentially of a nucleotide sequence selected from the group consisting of:

(a) a nucleotide sequence that encodes an amino acid sequence selected from any one of SEQ ID NO: 12, 14, 16, 18, 20, 22, 24, 26, 28, 30, 32, 34, 36, 38, 40, 42, 44, 46, 48, 50, 52, 54, 56, 58, 60, 62, 64, 66, 68, 70, 72, 74, 76, 78, 80 or 82;

(b) a nucleotide sequence selected from any one of SEQ ID NO:11, 13, 15, 17, 19, 21, 23, 25, 27, 29, 31, 33, 35, 37, 39, 41, 43, 45, 47, 49, 51, 53, 55, 57, 59, 61, 63, 65, 67, 69, 71, 73, 75, 77, 79 or 81, or a complement thereof;

(c) a nucleotide sequence that shares at least 70% (and at least 71% to at least 99% and all integer percentages in between) sequence identity with the sequence set forth in any one of SEQ ID NO: 11, 13, 15, 17, 19, 21, 23, 25, 27, 29, 31, 33, 35, 37, 39, 41, 43, 45, 47, 49, 51, 53, 55, 57, 59, 61, 63, 65, 67, 69, 71, 73, 75, 77, 79 or 81, or a complement thereof, wherein the amino acid sequence encoded by the nucleotide sequence comprises L, or modified form thereof, at a position corresponding to position 1 of formula I; or

(d) a nucleotide sequence that hybridizes under at least low, medium or high stringency conditions to the sequence set forth in any one of SEQ ID NO: 11, 13, 15, 17, 19, 21, 23, 25, 27, 29, 31, 33, 35, 37, 39, 41, 43, 45, 47, 49, 51, 53, 55, 57, 59, 61, 63, 65, 67, 69, 71, 73, 75, 77, 79 or 81, or a complement thereof, wherein the amino acid sequence encoded by the nucleotide sequence comprises L, or modified form thereof, at a position corresponding to position 1 of formula I.

In some embodiments, the nucleic acid molecules further comprise a nucleotide sequence encoding a signal peptide, representative examples of which are selected from:

(a) a nucleotide sequence as set forth in any one of 83, 85, 87, 89, 91, 93, 95, 97, 99, 101 or 103, or a complement thereof;

(b) a nucleotide sequence that shares at least 70% (and at least 71% to at least 99% and all integer percentages in between) sequence identity with the sequence set forth in any one of SEQ ID NO: 83, 85, 87, 89, 91, 93, 95, 97, 99, 101 or 103, or a complement thereof; or

(c) a nucleotide sequence that hybridizes under at least low, medium or high stringency conditions to the sequence set forth in any one of SEQ ID NO: 83, 85, 87, 89, 91, 93, 95, 97, 99, 101 or 103, or a complement thereof.

In some embodiments, the nucleic acid molecules further comprise a nucleotide sequence encoding a secretion-enhancing sequence, representative examples of which are selected from:

(a) a nucleotide sequence as set forth in any one of SEQ ID NO:105, 107, 109, 111, 113, 115, 117, 119, 121, 123, 125, 127, 129 or 131, or a complement thereof;

(b) a nucleotide sequence that shares at least 70% (and at least 71% to at least 99% and all integer percentages in between) sequence identity with the sequence set forth in any one of SEQ ID NO: 105, 107, 109, 111, 113, 115, 117, 119, 121, 123, 125, 127, 129 or 131, or a complement thereof; or

(c) a nucleotide sequence that hybridizes under at least low, medium or high stringency conditions to the sequence set forth in any one of SEQ ID NO: 105, 107, 109, 111, 113, 115, 117, 119, 121, 123, 125, 127, 129 or 131, or a complement thereof.

In some embodiments, the polypeptide encoded by the nucleic acid molecule as broadly described above has any one or more activities selected from the group consisting of enhanced luminescence, stronger flash signal intensity, enhanced glow signal intensity, enhanced stability of glow signal and enhanced effective temperature range, including elevated optimal temperature range, for operation of the enzyme relative to a reference luciferase polypeptide without L at position 85 (relative to the consensus numbering shown in FIG. 1) (e.g., relative to any one or more of the following luciferases: Metridia pacifica 2a, Metridia pacifica 2bv1&2, Metridia longa 22, Metridia pacifica v1&2&, Metridia longa 39, Metridia longa GS Metridia longa 7, Metridia longa 164M3, Metridia longa 164v1&2, Metridia longa 16, Metridia longa 45, Metridia longa 52 and Metridia longa AL).

The present inventors have also found that the secretion-enhancing domain of luciferases, as defined for example above, is not essential for luciferase activity and its functional deletion in some embodiments improves one or more luciferase activities. Thus, in another aspect, the present invention provides polypeptides, which are suitably in isolated, synthetic, recombinant or purified form, which comprise, consist or consist essentially of an amino acid sequence having luciferase activity, wherein the amino acid sequence is represented by formula VII: Ψ-Θ  (VII) wherein:

-   -   Ψ comprises at least one of an amino acid residue for initiation         of protein synthesis in vivo (e.g., M or modified form thereof),         a protecting moiety (e.g., an N-terminal blocking residue such         as pyroglutamate) and optionally a signal sequence for secretion         of the polypeptide to an extracellular location; and     -   Θ comprises, consists or consists essentially of:         -   (a) an amino acid sequence having luciferase activity,             wherein the amino acid sequence is represented by formula             VIII:

(VIII) ΔX₁PGKKX₂PX₃X₄VX₅X₆EX₇EANAX₈X₉AGC₁X₁₀RGC₂LX₁₁C₃LS X₁₂IKC₄TX₁₃X₁₄MX₁₅X₁₆X₁₇IPGB₁C₅X₁₈X₁₉YX₂₀GDKX₂₁X₂₂ X₂₃QX₂₄GIX₂₅X₂₆X₂₇X₂₈IVDX₂₉PEIX₃₀GFKX₃₁X₃₂X₃₃PX₃₄ X₃₅QFIAQVX₃₆X₃₇C₆X₃₈X₃₉C₇X₄₀TGC₈LKGLANVX₄₁C₉ΣX₄₂ LLKKWLPX₄₃B₂C₁₀X₄₄X₄₅FAX₄₆KIQX₄₇X₄₈X₄₉X₅₀X₅₁IKG X₅₂X₅₃GD wherein:

-   -   Δ is absent or is a proteinaceous moiety comprising from about 1         to about 20 amino acid residues (and all integer residues in         between), which is not a functional secretion-enhancing         sequence;     -   X₁ is selected from hydrophobic amino acid residues (e.g.,         aliphatic amino acid residues such as L or M, or modified form         thereof) or basic amino acid residues (e.g., H, or modified form         thereof);     -   X₂ is selected from hydrophobic amino acid residues (e.g.,         aliphatic amino acid residues such as L or M, or modified form         thereof);     -   X₃ is selected from hydrophobic amino acid residues (e.g.,         aliphatic amino acid residues such as L, or modified form         thereof) or basic amino acid residues (e.g., K, or modified form         thereof);     -   X₄ selected from hydrophobic amino acid residues (e.g.,         aliphatic amino acid residues such as A, or modified form         thereof) or acidic amino acid residues (e.g., E, or modified         form thereof);     -   X₅ is selected from hydrophobic amino acid residues (e.g.,         aliphatic amino acid residues such as I or L, or modified form         thereof) or small amino acid residues (e.g., P, or modified form         thereof);     -   X₆ is selected from hydrophobic amino acid residues (e.g.,         aliphatic amino acid residues such as I, M or V, or modified         form thereof) or basic amino acid residues (e.g., K, or modified         form thereof);     -   X₇ is selected from hydrophobic amino acid residues (e.g.,         aliphatic amino acid residues such as M, I or L, or modified         form thereof);     -   X₈ is selected from basic amino acid residues (e.g., K or R, or         modified form thereof) or hydrophobic amino acid residues (e.g.,         aromatic amino acid residues such as F, or modified form         thereof);     -   X₉ is selected from basic amino acid residues (e.g., K or R, or         modified form thereof);     -   X₁₀ is selected from small amino acid residues (e.g., T, or         modified form thereof) or basic amino acid residues (e.g., H, or         modified form thereof);     -   X₁₁ is selected from hydrophobic amino acid residues (e.g.,         aliphatic amino acid residues such as I or V, or modified form         thereof);     -   X₁₂ is selected from basic amino acid residues (e.g., H or K, or         modified form thereof);     -   X₁₃ is selected from small amino acid residues (e.g., P or A, or         modified form thereof) or basic amino acid residues (e.g., K, or         modified form thereof);     -   X₁₄ is selected from basic amino acid residues (e.g., K, or         modified form thereof) or neutral/polar amino acid residues         (e.g., Q, or modified form thereof);     -   X₁₅ is selected from basic amino acid residues (e.g., K, or         modified form thereof) or neutral/polar amino acid residues         (e.g., Q, or modified form thereof);     -   X₁₆ is selected from any amino acid residue (e.g., basic amino         acid residues such as K, or modified form thereof, hydrophobic         amino acid residues including aliphatic amino acid residues such         as V, or modified form thereof, or neutral/polar amino acid         residues such as Q, or modified form thereof);     -   X₁₇ is selected from hydrophobic amino acid residues (e.g.,         aromatic amino acid residues such as F or Y, or modified form         thereof);     -   B₁ is selected from basic amino acid residues (e.g., R or K, or         modified form thereof);     -   X₁₈ is selected from basic amino acid residues (e.g., H, or         modified form thereof) or small amino acid residues (e.g., A, or         modified form thereof);     -   X₁₉ is selected from acidic amino acid residues (e.g., D, or         modified form thereof) or small amino acid residues (e.g., T or         S, or modified form thereof);     -   X₂₀ is selected from acidic amino acid residues (e.g., E, or         modified form thereof) or small amino acid residues (e.g., G or         A, or modified form thereof);     -   X₂₁ is selected from acidic amino acid residues (e.g., D or E,         or modified form thereof) or basic amino acid residues (e.g., K,         or modified form thereof);     -   X₂₂ is selected from small amino acid residues (e.g., S or T, or         modified form thereof);     -   X₂₃ is selected from small amino acid residues (e.g., G or A, or         modified form thereof);     -   X₂₄ is selected from small amino acid residues (e.g., G or A, or         modified form thereof);     -   X₂₅ is selected from small amino acid residues (e.g., G or A, or         modified form thereof) or hydrophobic amino acid residues (e.g.,         aliphatic amino acid residues such as V, or modified form         thereof);     -   X₂₆ is absent or selected from small amino acid residues (e.g.,         G, or modified form thereof);     -   X₂₇ is selected from acidic amino acid residues (e.g., E, or         modified form thereof) or small amino acid residues (e.g., G, or         modified form thereof);     -   X₂₈ is selected from small amino acid residues (e.g., A, or         modified form thereof) or acidic amino acid residues (e.g., E,         or modified form thereof);     -   X₂₉ is selected from hydrophobic amino acid residues (e.g.,         aliphatic amino acid residues such as I or M, or modified form         thereof);     -   X₃₀ is selected from small amino acid residues (e.g., P, S or A,         or modified form thereof);     -   X₃₁ is selected from acidic amino acid residues (e.g., D or E,         or modified form thereof);     -   X₃₂ is selected from hydrophobic amino acid residues (e.g.,         aliphatic amino acid residues such as L or M, or modified form         thereof) or basic amino acid residues (e.g., K, or modified form         thereof);     -   X₃₃ is selected from charged amino acid residues (e.g., acidic         amino acid residues such as E, or modified form thereof, or         basic amino acid residues such as K, or modified form thereof)         or small amino acid residues (e.g., G or A, or modified form         thereof);     -   X₃₄ is selected from hydrophobic amino acid residues (e.g.,         aliphatic amino acid residues such as M or L, or modified form         thereof);     -   X₃₅ is selected from acidic amino acid residues (e.g., E or D,         or modified form thereof);     -   X₃₆ is selected from acidic amino acid residues (e.g., D or E,         or modified form thereof);     -   X₃₇ is selected from hydrophobic amino acid residues (e.g.,         aliphatic amino acid residues such as L, or modified form         thereof) or basic amino acid residues (e.g., R, or modified form         thereof);     -   X₃₈ is selected from any amino acid residue (e.g., hydrophobic         amino acid residues including aliphatic amino acid residues such         as V, or modified form thereof, or small amino acid residues         such as A or T, or modified form thereof, or basic amino acid         residues such as H or modified form thereof, or acidic amino         acid residues such as E or D, or modified form thereof);     -   X₃₉ is selected from acidic amino acid residues (e.g., D, or         modified form thereof) or small amino acid residues (e.g., S or         T, or modified form thereof);     -   X₄₀ is selected from small amino acid residues (e.g., T, or         modified form thereof) or neutral/polar amino acid residues         (e.g., N, or modified form thereof);     -   X₄₁ is selected from basic amino acid residues (e.g., K, R or H,         or modified form thereof) or neutral/polar amino acid residues         (e.g., Q, or modified form thereof);     -   Σ is selected from small amino acid residues (e.g., S, A or T,         or modified form thereof);     -   X₄₂ is selected from acidic amino acid residues (e.g., D or E,         or modified form thereof) or small amino acid residues (e.g., S,         T or A, or modified form thereof);     -   X₄₃ is selected from any amino acid residue (e.g., small amino         acid residues such as P, G, T, S or A, or modified form thereof,         or neutral/polar amino acid residues such as Q or N, or modified         form thereof, basic amino acid residues such as H, K or R or         modified form thereof, or acidic amino acid residues such as D         or E, or modified form thereof);     -   B₂ is selected from basic amino acid residues (e.g., R or K, or         modified form thereof);     -   X₄₄ is selected from small amino acid residues (e.g., A, or         modified form thereof) or basic amino acid residues (e.g., K, or         modified form thereof);     -   X₄₅ is selected from small amino acid residues (e.g., S or T, or         modified form thereof);     -   X₄₆ is selected from acidic amino acid residues (e.g., D, or         modified form thereof) or small amino acid residues (e.g., S, or         modified form thereof);     -   X₄₇ is selected from small amino acid residues (e.g., G or S, or         modified form thereof) or basic amino acid residues (e.g., K, or         modified form thereof);     -   X₄₈ is selected from neutral/polar amino acid residues (e.g., Q,         or modified form thereof) or acidic amino acid residues (e.g.,         E, or modified form thereof);     -   X₄₉ is selected from hydrophobic amino acid residues (e.g.,         aliphatic amino acid residues such as V, or modified form         thereof) or small amino acid residues (e.g., A, or modified form         thereof);     -   X₅₀ is selected from charged amino acid residues (e.g., acidic         amino acid residues such as D, or modified form thereof, or         basic amino acid residues such as H, or modified form thereof);     -   X₅₁ is selected from any amino acid residue (e.g., basic amino         acid residues such as K, or modified form thereof, or         neutral/polar amino acid residues such as N, or modified form         thereof, or small amino acid residues such as T, or modified         form thereof);     -   X₅₂ is selected from small amino acid residues (e.g., A, or         modified form thereof) or hydrophobic amino acid residues (e.g.,         aliphatic amino acid residues such as L or M, or modified form         thereof); and     -   X₅₃ is selected from small amino acid residues (e.g., G or A, or         modified form thereof), or         -   (b) an amino acid sequence that shares at least 70% (and at             least 71% to at least 99% and all integer percentages in             between) sequence similarity or sequence identity with the             amino acid sequence represented by formula VIII.

Suitably, Θ lacks or otherwise excludes a functional secretion-enhancing sequence, for example one selected from the group consisting of: KPTENNEDFNIVAVASNFATT [SEQ ID NO:106, secretion-enhancing sequence of Gaussia princeps Prolume, Prolume KDEL, Mutant 1 and Mutant 2 luciferases], ATINENFEDIDVVAIGGSFAL [SEQ ID NO:108, secretion-enhancing sequence of Metridia pacifica 2a luciferase], ATINENFEDIDLVAIGGSFAL [SEQ ID NO:110, secretion-enhancing sequence of Metridia pacifica 2bv1&2 luciferases], ATIQENFEDIDLVAIGGSFAS [SEQ ID NO:112, secretion-enhancing sequence of Metridia longa 22 luciferase], NPTENKDDIDIVGVEGKFGTTDLETDLFTIVEDMNVISRDTNLA [SEQ ID NO:114, secretion-enhancing sequence of Metridia pacifica v1&2&3 luciferases], NPTENNDHINIVGIEGKFGITDLETDLFTIWETNRMISTDNEQA [SEQ ID NO:116, secretion-enhancing sequence of Metridia longa 39]; NPTV [SEQ ID NO:118, secretion-enhancing sequence of Metridia longa 7 luciferase]; KTDIADTDRASNFVAT [SEQ ID NO:120, secretion-enhancing sequence of Metridia longa GS luciferase]; QKTDIADTDRASNFVAT [SEQ ID NO:122, secretion-enhancing sequence of Metridia longa 164M3 luciferase]; KSTEFDPNIDIVGLEGKFGITNLETDLFTIWETMEVMIKADIADTDRASNFVAT [SEQ ID NO:124, secretion-enhancing sequence of Metridia longa 164v1&2 luciferases]; KSTEFDPNIDIVGLEGKFGITNLETDLFTIWETMEVIKSDIADTDRVSNFVAT [SEQ ID NO:126, secretion-enhancing sequence of Metridia longa 16 luciferase]; KSTEFDPNIDIVGLEGKFGITNLETDLFTIWETMEVIKTDIADTDRARSFVAT [SEQ ID NO:128, secretion-enhancing sequence of Metridia longa 45 luciferase]; KSTEFDPNIDVVGLEGKFGITNLETDLFTIWETMEVIKTDIADTDRARNFVAT [SEQ ID NO:130, secretion-enhancing sequence of Metridia longa 52 luciferase]; and KSTEFDPNINIVGLEGKFGITNLETDLFTIWETMDVIKSDITDTDRVSNFVAT [SEQ ID NO:132, secretion-enhancing sequence of Metridia longa AL luciferase].

In some embodiments, the polypeptide is other than one consisting of the sequence:

[SEQ ID NO: 134] MDIKFIFALVCIALVQANPTVNNDVNRGKMPGKKLPLEVLIEMEANAFKA GCTRGCLICLSKIKCTAKMKQYIPGRCHDYGGDKKTGQAGIVGAIVDIP EISGFKEMEPMEQFIAQVDLCADCTTGCLKGLANVKCSELLKKWLPDR CASFADKIQKEAHNIKGLAGDR (full-length wild-type Metridia longa 7 luciferase).

In some embodiments, the amino acid sequence according to Θ further comprises upstream (e.g., immediately upstream) of the sequence represented by formula VIII an amino acid sequence represented by formula IX: X₅₄X₅₅X₅₆X₅₇X₅₈RGO₁X₅₉  (IX)

-   -   wherein:     -   X₅₄ is absent or is selected from acidic amino acid residues         (e.g., D or E, or modified form thereof) or neutral/polar amino         acid residues (e.g., N, or modified form thereof), wherein X₅₄         is present in some embodiments with the proviso that X₅₅ is         present;     -   X₅₅ is absent or is selected from any amino acid residue (e.g.,         hydrophobic amino acid residues including aliphatic amino acid         residues such as L or V, or modified form thereof; small amino         acid residues such as S, T or A, or modified form thereof; or         neutral/polar amino acid residues such as N, or modified form         thereof), wherein X₅₅ is present in some embodiments with the         proviso that X₅₆ is present;     -   X₅₆ is absent or is selected from acidic amino acid residues         (e.g., D or E, or modified form thereof), wherein X₅₆ is present         in some embodiments with the proviso that X₅₇ is present;     -   X₅₇ is absent or is selected from any amino acid residue (e.g.,         hydrophobic amino acid residue including aliphatic amino acid         residues such as V, or modified form thereof; or small amino         acid residues such as S, T or A, or modified form thereof),         wherein X₅₇ is present in some embodiments with the proviso that         X₅₈ is present;     -   X₅₈ is selected from acidic amino acid residues (e.g., D or E,         or modified form thereof) or neutral/polar amino acid residues         (e.g., N, or modified form thereof), wherein X₅₈ is present in         some embodiments with the proviso that O₁ is present;     -   O₁ is absent or is the sequence J₁J₂J₃, wherein J₁ is selected         from small amino acid residues (e.g., G or modified form         thereof), J₂ is selected from basic amino acid residues (e.g., H         or modified form thereof), and J₃ is selected from small amino         acid residues (e.g., G or modified form thereof), wherein O₁ is         present in some embodiments with the proviso that X₅₉ is         present; and     -   X₅₉ is selected from basic amino acid residues (e.g., K, or         modified form thereof); or small amino acid residues (e.g., G or         modified form thereof).

In some embodiments, Θ comprises, consists or consists essentially of an amino acid sequence selected from:

(a) an amino acid sequence selected from:

DLDADRGKLPGKKLPLEVLKEMEANARKAGCTRGCLICLSHIKCTPKMKK FIPGRCHTYEGDKESAQGGIGEAIVDIPEIPGFKDLEPMEQFIAQVDLCVDCTTGCLKGLANVQ CSDLLKKWLPQRCATFASKIQGQVDKIKGAGGD [SEQ ID NO: 46, intracellular Gaussia princeps Prolume luciferase]; DLDADRGKLPGKKLPLEVLKEMEANARKAGCTRGCLICLSHIKCTPKMKK FIPGRCHTYEGDKESAQGGIGEAIVDIPEIPGFKDLEPMEQFIAQVDLCVDCTTGCLKGLANVQ CSDLLKKWLPQRCATFASKIQGQVDKIKGAGGDKDEL [SEQ ID NO: 48, intracellular Gaussia princeps Prolume KDEL luciferase]; DLDADRGKLPGKKLPLEVLKEIEANARKAGCTRGCLICLSHIKCTPKMKKF IPGRCHTYEGDKESAQGGIGEAIVDIPEIPGFKDLEPMEQFIAQVDLCVDCTTGCLKGLANVQC SDLLKKWLPQRCATFASKIQGQVDKIKGAGGD [SEQ ID NO: 50, intracellular Gaussia princeps Mutant 1 luciferase]; DLDADRGKLPGKKLPLEVLKELEANARKAGCTRGCLICLSHIKCTPKMKK FIPGRCHTYEGDKESAQGGIGEAIVDIPEIPGFKDLEPLEQFIAQVDLCVDCTTGCLKGLANVQ CSDLLKKWLPQRCATFASKIQGQVDKIKGAGGD [SEQ ID NO: 52, intracellular Gaussia princeps Mutant 2 luciferase]; DVDANRGGHGGHPGKKMPKEVLVEMEANAKRAGCHRGCLICLSHIKCTK KMKKFIPGRCHSYEGDKDSAQGGIGEEIVDMPEIPGFKDKEPMDQFIAQVDLCVDCTTGCLK GLANVHCSALLKKWLPSRCKTFASKIQSQVDTIKGLAGDR [SEQ ID NO: 136, intracellular Metridia pacifica 2a luciferase]; DVDANRGGHGGHPGKKMPKEVLVEMEANAKRAGCHRGCLICLSHIKCTK KMKKFIPGRCHSYEGDKDSAQGGIGEEIVDMPEIPGFKDKEPMDQFIAQVDLCVDCTTGCLK GLANVHCSDLLKKWLPSRCKTFASKIQSQVDTIKGLAGDR [SEQ ID NO: 138, intracellular Metridia pacifica 2bv1 luciferase]; DVDANRGGHGGHPGKKMPKEVPVEMEANAKRAGCHRGCLICLSHIKCTK KMKKFIPGRCHSYEGDKDSAQGGIGEEIVDMPEIPGFKDKEPMDQFIAQVDLCVDCTTGCLK GLANVHCSDLLKKWLPSRCKTFASKIQSQVDTIKGLAGDR [SEQ ID NO: 140, intracellular Metridia pacifica 2bv2 luciferase]; DVDANRGGHGGHPGKKMPKEVLMEMEANAKRAGCHRGCLVCLSHIKCT AQMQKFIPGRCHSYAGDKDSAQGGIAGGAIVDIPEIAGFKEMKPMEQFIAQVDLCEDCTTGCL KGLANVHCSDLLKKWLPSRCKTFASKIQSQVDTIKGLAGDR [SEQ ID NO: 142, intracellular Metridia longa 22 luciferase]; and NSDADRGKMPGKKLPLEVLIEMEANARKAGCTRGCLICLSKIKCTAKMKV YIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKELGPMEQFIAQVDLCADCTTGCLKGLANV KCSALLKKWLPDRCASFADKIQSEVDNIKGLAGDR [SEQ ID NO: 144, intracellular Metridia pacifica v1&2&3 luciferases]; NTDSNRGKMPGKKLPLAVLIEMEANAFKAGCTRGCLICLSKIKCTAKMKK YIPGRCHDYGGDKKTGQAGIVGAIVDIPDISGFKEMGPMEQFIAQVDRCTDCTTGCLKGLAN VKCSELLKKWLPDRCASFADKIQSEVHNIKGLAGDR [SEQ ID NO: 146, intracellular Metridia longa 39 luciferase]; NNDVNRGKMPGKKLPLEVLIEMEANAFKAGCTRGCLICLSKIKCTAKMKQ YIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMEPMEQFIAQVDLCADCTTGCLKGLANV KCSELLKKWLPDRCASFADKIQKEAHNIKGLAGDR [SEQ ID NO: 148, intracellular Metridia longa 7 luciferase]; ETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMK VYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDRCASCTTGCLKGLAN VKCSELLKKWLPDRCASFADKIQKEVHNIKGMAGDR [SEQ ID NO: 150] (intracellular Metridia longa GS luciferase); ETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMK VYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDRCASCTTGCLKGLAN VKCSELLKKWLPDRCASFADKIQKEVHNIKGMAGDR [SEQ ID NO: 152, intracellular Metridia longa 164M3&v1 luciferases]; ETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMK VYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVERCASCTTGCLKGLAN VKCSELLKKWLPDRCASFADKIQKEVHNIKGMAGDR [SEQ ID NO: 154, intracellular Metridia longa 164v2 luciferase]; ETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMK VYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDRCTSCTTGCLKGLAN VKCSELLKKWLPDRCASFADKIQKEVHNIKGMAGDR [SEQ ID NO: 156, intracellular Metridia longa 16 luciferase]; ETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMK VYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMEPMEQFIAQVDRCASCTTGCLKGLAN VKCSELLKKWLPDRCASFADKIQKEVHNIKGMAGDR [SEQ ID NO: 158, intracellular Metridia longa 45 luciferase]; ETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMK VYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMEPMEQFIAQVDRCASCNTGCLKGLAN VKCSELLKKWLPDRCASFADKIQKEVHNIKGMAGDR [SEQ ID NO: 160, intracellular Metridia longa 52 luciferase]; ETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMK VYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDLCATCTTGCLKGLAN VKCSELLKKWLPGRCASFADKIQKEVHNIKGMAGDR [SEQ ID NO: 162, intracellular Metridia longa AL luciferase]; EAEAERGKLPGKKLPLEVLIEMEANARKAGCTRGCLICLSKIKCTAKMKK YIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKEMEPMEQFIAQVDRCADCTTGCLKGLANV KCSDLLKKWLPGRCATFADKIQSEVDNIKGLAGDR [SEQ ID NO: 82, intracellular Metridia longa GS2 luciferase];

(b) an amino acid sequence that shares at least 70% (and at least 71% to at least 99% and all integer percentages in between) sequence similarity or sequence identity with the sequence set forth in any one of SEQ ID NO: 46, 48, 50, 52, 82, 136, 138, 140, 142, 144, 146, 148, 150, 152, 154, 156, 158, 160 or 162; or

(c) an amino acid sequence which is encoded by the nucleotide sequence set forth in any one of:

[SEQ ID NO: 45] gayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargtnytnaargaratggargcnaa ygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaaratgaaraarttyathccnggnmg ntgycayacntaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathccngarathccnggnttyaargay ytngarccnatggarcarttyathgcncargtngayytntgygtngaytgyacnacnggntgyytnaarggnytngcnaaygtncartgywsn gayytnytnaaraartggytnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaarathaarggngcnggnggng ay (nucleotide sequence encoding intracellular Gaussia princeps Prolume luciferase); [SEQ ID NO: 47] gayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargtnytnaargaratggargcnaa ygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaaratgaaraarttyathccnggnmg ntgycayacntaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathccngarathccnggnttyaargay ytngarccnatggarcarttyathgcncargtngayytntgygtngaytgyacnacnggntgyytnaarggnytngcnaaygtncartgywsn gayytnytnaaraartggytnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaarathaarggngcnggnggng ayaargaygarytn (nucleotide sequence encoding intracellular Gaussia princeps Prolume KDEL luciferase); [SEQ ID NO: 49] gayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargtnytnaargarathgargcnaa ygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaaratgaaraarttyathccnggnmg ntgycayacntaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathccngarathccnggnttyaargay ytngarccnatggarcarttyathgcncargtngayytntgygtngaytgyacnacnggntgyytnaarggnytngcnaaygtncartgywsn gayytnytnaaraartggytnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaarathaarggngcnggnggng ay (nucleotide sequence encoding intracellular Gaussia princeps Mutant 1 luciferase); [SEQ ID NO: 51] gayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargtnytnaargarytngargcnaa ygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaaratgaaraarttyathccnggnmg ntgycayacntaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathccngarathccnggnttyaargay ytngarccnytngarcarttyathgcncargtngayytntgygtngaytgyacnacnggntgyytnaarggnytngcnaaygtncartgywsn gayytnytnaaraartggytnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaarathaarggngcnggnggng ay (nucleotide sequence encoding intracellular Gaussia princeps Mutant 2 luciferase); [SEQ ID NO: 135] gaygtngaygcnaaymgnggnggncayggnggncayccnggnaaraaratgccnaargargtnytngtngar atggargcnaaygcnaarmgngcnggntgycaymgnggntgyytnathtgyytnwsncayathaartgyacnaaraaratgaaraarttyat hccnggnmgntgycaywsntaygarggngayaargaywsngcncarggnggnathggngargarathgtngayatgccngarathccng gnttyaargayaargarccnatggaycarttyathgcncargtngayytntgygtngaytgyacnacnggntgyytnaarggnytngcnaaygt ncaytgywsngcnytnytnaaraartggytnccnwsnmgntgyaaracnttygcnwsnaarathcarwsncargtngayacnathaarggn ytngcnggngaymgn (nucleotide sequence encoding intracellular Metridia pacifica 2a luciferase); [SEQ ID NO: 137] gaygtngaygcnaaymgnggnggncayggnggncayccnggnaaraaratgccnaargargtnytngtngar atggargcnaaygcnaarmgngcnggntgycaymgnggntgyytnathtgyytnwsncayathaartgyacnaaraaratgaaraarttyat hccnggnmgntgycaywsntaygarggngayaargaywsngcncarggnggnathggngargarathgtngayatgccngarathccng gnttyaargayaargarccnatggaycarttyathgcncargtngayytntgygtngaytgyacnacnggntgyytnaarggnytngcnaaygt ncaytgywsngayytnytnaaraartggytnccnwsnmgntgyaaracnttygcnwsnaarathcarwsncargtngayacnathaarggn ytngcnggngaymgn (nucleotide sequence encoding intracellular Metridia pacifica 2bv1 luciferase); [SEQ ID NO: 139] gaygtngaygcnaaymgnggnggncayggnggncayccnggnaaraaratgccnaargargtnccngtngar atggargcnaaygcnaarmgngcnggntgycaymgnggntgyytnathtgyytnwsncayathaartgyacnaaraaratgaaraarttyat hccnggnmgntgycaywsntaygarggngayaargaywsngcncarggnggnathggngargarathgtngayatgccngarathccng gnttyaargayaargarccnatggaycarttyathgcncargtngayytntgygtngaytgyacnacnggntgyytnaarggnytngcnaaygt ncaytgywsngayytnytnaaraartggytnccnwsnmgntgyaaracnttygcnwsnaarathcarwsncargtngayacnathaarggn ytngcnggngaymgn (nucleotide sequence encoding intracellular Metridia pacifica 2bv2 luciferase); [SEQ ID NO: 141] gaygtngaygcnaaymgnggnggncayggnggncayccnggnaaraaratgccnaargargtnytnatggara tggargcnaaygcnaarmgngcnggntgycaymgnggntgyytngtntgyytnwsncayathaartgyacngcncaratgcaraarttyat hccnggnmgntgycaywsntaygcnggngayaargaywsngcncarggnggnathgcnggnggngcnathgtngayathccngarath gcnggnttyaargaratgaarccnatggarcarttyathgcncargtngayytntgygargaytgyacnacnggntgyytnaarggnytngcna aygtncaytgywsngayytnytnaaraartggytnccnwsnmgntgyaaracnttygcnwsnaarathcarwsncargtngayacnathaa rggnytngcnggngaymgn (nucleotide sequence encoding intracellular Metridia longa 22 luciferase); [SEQ ID NO: 143] aaywsngaygcngaymgnggnaaratgccnggnaaraarytnccnytngargtnytnathgaratggargcnaa ygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmg ntgycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargar ytnggnccnatggarcantyathgcncargtngayytntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgyws ngcnytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcarwsngargtngayaayathaarggnytngcnggn gaymgn (nucleotide sequence encoding intracellular Metridia pacifica v1&2&3 luciferases); [SEQ ID NO: 145] aayacngaywsnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnytnathgaratggargcna aygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaaraartayathccnggnmg ntgycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngayathwsnggnttyaargar atgggnccnatggarcarttyathgcncargtngaymgntgyacngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgyws ngarytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcarwsngargtncayaayathaarggnytngcnggn gaymgn (nucleotide sequence encoding intracellular Metridia longa 39 luciferase); [SEQ ID NO: 147] aayaaygaygtnaaymgnggnaaratgccnggnaaraarytnccnytngargtnymathgaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaarcartayathccnggnmgnt gycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggarccnatggarcarttyathgcncargtngayytntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsng arytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargcncayaayathaarggnytngcnggngay mgn (nucleotide sequence encoding intracellular Metridia longa 7 luciferase); [SEQ ID NO: 149] garacngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgnt gycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggcnccnatggarcarttyathgcncargtngaymgntgygcnwsntgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsn garytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggnga ymgn (nucleotide sequence encoding intracellular Metridia longa GS luciferase); [SEQ ID NO: 151] garacngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgnt gycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggcnccnatggarcarttyathgcncargtngaymgntgygcnwsntgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsn garytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggnga ymgn (nucleotide sequence encoding intracellular Metridia longa 164M3&v1 luciferase); [SEQ ID NO: 153] garacngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgnt gycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggcnccnatggarcarttyathgcncargtngarmgntgygcnwsntgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsn garytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggnga ymgn (nucleotide sequence encoding intracellular Metridia langa 164v2 luciferase); [SEQ ID NO: 155] garacngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgnt gycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggcnccnatggarcarttyathgcncargtngaymgntgyacnwsntgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsn garytnynaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggnga ymgn (nucleotide sequence encoding intracellular Metridia longa 16 luciferase); [SEQ ID NO: 157] garacngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgnt gycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggarccnatggarcarttyathgcncargtngaymgntgygcnwsntgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsn garytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggnga ymgn (nucleotide sequence encoding intracellular Metridia longa 45 luciferase]; [SEQ ID NO: 159] garacngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgnt gycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggarccnatggarcarttyathgcncargtngaymgntgygcnwsntgyaayacnggntgyytnaarggnytngcnaaygtnaartgywsn garytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggnga ymgn (nucleotide sequence encoding intracellular Metridia longa 52 luciferase); [SEQ ID NO: 161] garacngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgnt gycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggcnccnatggarcarttyathgcncargtngayytntgygcnacntgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsng arytnytnaaraartggytnccnggnmgntgygtcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggngay mgn (nucleotide sequence encoding intracellular Metridia longa AL luciferase), or [SEQ ID NO: 81] gargcngargcngarmgnggnaarytnccnggnaaraarytnccnytngargtnytnathgaratggargcnaay gcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaaraartayathccnggnmgn tgygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggarccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsn gayytnytnaaraartggytnccnaaymgntgygcnwsnttygcngayaarathcarwsngargtngayaayathaarggnytngcnggng aymgn (nucleotide sequence encoding intracellular Metridia longa GS2 luciferase), or

a complement of any one of 45, 47, 49, 51, 81, 135, 137, 139, 141, 143, 145, 147, 149, 151, 153, 155, 157, 159 or 161;

(d) an amino acid sequence which is encoded by a nucleotide sequence that shares at least 70% (and at least 71% to at least 99% and all integer percentages in between) sequence identity with the sequence set forth in any one of SEQ ID NO: 45, 47, 49, 51, 81, 135, 137, 139, 141, 143, 145, 147, 149, 151, 153, 155, 157, 159 or 161, or a complement thereof; or

(e) an amino acid sequence which is encoded by a nucleotide sequence that hybridizes under at least medium or high stringency conditions to the sequence set forth in any one of SEQ ID NO: 45, 47, 49, 51, 81, 135, 137, 139, 141, 143, 145, 147, 149, 151, 153, 155, 157, 159 or 161, or a complement thereof.

In some embodiments, the signal peptide comprises an amino acid sequence represented by formula IV as broadly described above, non-limiting examples include (a) an amino acid sequence as set forth in SEQ ID NO: 84, 86, 88, 90, 92, 94, 96, 98, 100, 102 or 104, or (b) an amino acid sequence that shares at least 70% (and at least 71% to at least 99% and all integer percentages in between) sequence similarity or sequence identity with the sequence set forth in any one of SEQ ID NO: 84, 86, 88, 90, 92, 94, 96, 98, 100, 102 or 104, or an amino acid sequence which is encoded by the nucleotide sequence set forth in any one of SEQ ID NO: 83, 85, 87, 89, 91, 93, 95, 97, 99, 101 or 103, or (d) an amino acid sequence which is encoded by a nucleotide sequence that shares at least 70% (and at least 71% to at least 99% and all integer percentages in between) sequence identity with the sequence set forth in any one of SEQ ID NO: 83, 85, 87, 89, 91, 93, 95, 97, 99, 101 or 103, or a complement thereof, or (e) an amino acid sequence which is encoded by a nucleotide sequence that hybridizes under at least medium or high stringency conditions to the sequence set forth in any one of SEQ ID NO: 83, 85, 87, 89, 91, 93, 95, 97, 99, 101 or 103, or a complement thereof.

In some embodiments, the polypeptide according to formula VIII lacks a signal peptide for secreting the polypeptide to an extracellular location.

In some embodiments, X₁ in formula VIII is L or modified form thereof.

In some embodiments, X₁₈ is other than H.

In some embodiments, X₁₈ is selected from small amino acid residues (e.g., A, S or T, or modified form thereof) or acidic amino acid residues (e.g., E or modified form thereof).

In specific embodiments, X₁₈ is A or modified form thereof.

In some embodiments, the subsequence B₁C₅X₁₈X₁₉ consists of an amino acid sequence represented by formula V: BCΩΩ  (V) wherein:

-   -   B is selected from basic amino acid residues (e.g., R or K, or         modified form thereof); and     -   Ω is selected from small amino acid residues (e.g., A, S or T,         or modified form thereof) or acidic amino acid residues (e.g., D         or E, or modified form thereof)

In specific embodiments, X₁₈ is A or modified form thereof.

In some embodiments, X₁₉ is selected from small amino acid residues (e.g., T or S, or modified form thereof).

In some embodiments, the subsequence B₁C₅X₁₈X₁₉ is selected from RCAD, KCAD, RCED, KCED, RCSD, KCSD, RCTD, KCTD, RCAT or RCAS.

In some embodiments, X₃₇ is selected from basic amino acid residues (e.g., R or K, or modified form thereof) or neutral polar amino acid residues (e.g., Q or modified form thereof).

In some embodiments, X₃₈ is selected from A or E, or modified form.

In some embodiments, X₃₉ is D or modified form thereof.

In some embodiments, the subsequence X₃₇C₆X₃₈X₃₉ is selected from RCAD or RCED.

In some embodiments, X₄₁ is selected from basic amino acid residues (e.g., K or R, or modified form thereof).

In some embodiments, Σ is selected from S or T, or modified form thereof.

In some embodiments, X₄₂ is selected from D, or modified form thereof.

In some embodiments, the subsequence X₄₁C₉ΣX₄₂ is KCSD.

In some embodiments, at least one subsequence of the polypeptides selected from B₁C₅X₁₈X₁₉, X₃₇C₆X₃₈X₃₉ and X₄₁C₉ΣX₄₂ consists of an amino acid sequence represented by formula VI: BCΩD  (VI) wherein:

B is selected from basic amino acid residues (e.g., R or K, or modified form thereof); and

Ω is selected from small amino acid residues (e.g., A, S or T, or modified form thereof) or acidic amino acid residues (e.g., E, or modified form thereof).

In illustrative examples of this type, the subsequence B₁C₅X₁₈X₁₉ is selected from RCAD, KCAD, RCED, KCED, RCSD, KCSD, RCTD and KCTD.

In illustrative examples, the subsequence X₃₇C₆X₃₈X₃₉ is selected from RCAD, KCAD, RCED, KCED, RCSD, KCSD, RCTD and KCTD.

In illustrative examples, the subsequence X₄₁C₉ΣX₄₂ consists of the sequence KCSD.

In some embodiments, X₄₃ is other than D or P and is suitably selected from R or K or modified form thereof, more suitably H or modified form thereof, even more suitably T, A, S or N or modified form thereof, preferably Q or modified form thereof, more preferably G or modified form thereof, even more preferably E or modified form thereof.

In some embodiments, at least 1, 2, 3 or all 4 subsequence(s) selected from B₁C₅X₁₈X₁₉, X₃₇C₆X₃₈X₃₉, X₄₁C₉ΣX₄₂ and B₂C₁₀X₄₄X₄₅ consist(s) of an amino acid sequence represented by formula V (i.e., BCΩΩ) as defined above. In illustrative examples of this type, the amino acid sequence represented by formula V is selected from BCAD (e.g., RCAD, KCAD), BCAT (e.g., RCAT, KCAT), BCED (e.g., RCED, KCED), BCSD (e.g., RCSD, KCSD), BCTD (e.g., RCTD, KCTD), and BCAS (e.g., RCAS, KCAS).

In some embodiments, one or both of X₃₇C₆ and X₄₁C₉ consists of an amino acid sequence represented by formula XX: BC  (XX) wherein:

B is selected from basic amino acid residues (e.g., R or K, or modified form thereof).

In some illustrative examples of these embodiments, at least 1, 2, 3 or all subsequence(s) selected from B₁C₅, X₃₇C₆, X₄₁C₉ and B₂C₁₀ are present within a subsequence consisting of the amino acid sequence represented by formula XXI: BCΩ  (XXI) wherein:

B is selected from basic amino acid residues (e.g., R or K, or modified form thereof); and

Ω is selected from small amino acid residues (e.g., A, S or T, or modified form thereof) or acidic amino acid residues (e.g., E, or modified form thereof).

In these examples, BCΩ suitably consists of a sequence selected from BCA or BCE.

In some embodiments, at least 1, 2, 3 or all subsequence(s) selected from B₁C₅X₁₈, X₃₇C₆X₃₈, X₄₁C₉Σ and B₂C₁₀X₄₄ consist of an amino acid sequence represented by formula XXII: BCA  (XXII) wherein:

B is selected from basic amino acid residues (e.g., R or K, or modified form thereof).

In some illustrative examples of these embodiments, the amino acid sequence BCA is present within a subsequence selected from BCAD or BCAT. In these examples, the subsequence B₁C₅X₁₈X₁₉ is suitably represented by BCAD or BCAT. Suitably, the subsequence B₂C₁₀X₄₄ is represented by BCAT.

In some illustrative examples of these embodiments, the amino acid sequence BCA is present within the subsequence GBCAT. In these examples, the subsequence GBCAT suitably represents one or both of the subsequences GB₁C₅X₁₈X₁₉ and X₄₃B₂C₁₀X₄₄.

In some embodiments, the subsequence X₄₂ is other than D or P and is suitably selected from R or K or modified form thereof, more suitably H or modified form thereof, even more suitably T, A, S or N or modified form thereof, preferably Q or modified form thereof, more preferably G or modified form thereof, even more preferably E or modified form thereof. In some illustrative examples of these embodiments, the subsequence B₂C₁₀X₄₄ is represented by BCA or the subsequence B₂C₁₀X₄₄X₄₅ is represented by BCAT.

In some embodiments, one or both of X₃₆X₃₇C₆ and X₄₃B₂C₁₀ consists of an amino acid sequence represented by formula XXIII: EBC  (XXIII) wherein:

B is selected from basic amino acid residues (e.g., R or K, or modified form thereof).

In some embodiments, X₄₃B₂C₁₀ consists of an amino acid sequence represented by formula XXIV: GBC  (XXIV) wherein:

B is selected from basic amino acid residues (e.g., R or K, or modified form thereof).

In some illustrative examples of these embodiments, one or both of GB₁C and X₄₃B₂C₁₀ are present within a subsequence represented by formula XXV: GBCΩ  (XXV) wherein:

B is selected from basic amino acid residues (e.g., R or K, or modified form thereof); and

Ω is selected from small amino acid residues (e.g., A, S or T, or modified form thereof) or acidic amino acid residues (e.g., E, or modified form thereof).

Suitably, GBCΩ is GBCA.

In some illustrative examples of these embodiments, one or both of GB₁C and X₄₃B₂C₁₀ are present within a subsequence represented by formula XXVI: GBCΩΩ  (XXVI) wherein:

B is selected from basic amino acid residues (e.g., R or K, or modified form thereof); and

Ω is selected from small amino acid residues (e.g., A, S or T, or modified form thereof) or acidic amino acid residues (e.g., E, or modified form thereof).

Suitably, GBCΩΩ is GBCAT.

In some embodiments, polypeptides comprising an amino acid sequence according to Θ have any one or more activities selected from the group consisting of: enhanced luminescence, stronger flash signal intensity, enhanced glow signal intensity, enhanced stability of glow signal and enhanced effective temperature range, including elevated optimal temperature range; for operation of the enzyme relative to a reference luciferase polypeptide which comprises a functional secretion-enhancing sequence.

In a related aspect, the present invention provides isolated, synthetic, recombinant or purified nucleic acid molecules that comprise, consist or consist essentially of a nucleotide sequence encoding the amino acid sequence of a polypeptide according to formula VII as broadly described above, or any one of the embodiments relating to formula VII. In some embodiments, the nucleic acid molecules comprise, consist or consist essentially of a nucleotide sequence selected from the group consisting of

(a) a nucleotide sequence that encodes an amino acid sequence selected from any one of SEQ ID NO: 46, 48, 50, 52, 82, 136, 138, 140, 142, 144, 146, 148, 150, 152, 154, 156, 158, 160 or 162;

(b) a nucleotide sequence selected from: SEQ ID NO:45 (nucleotide sequence encoding intracellular Gaussia princeps Prolume luciferase), SEQ ID NO:47 (nucleotide sequence encoding intracellular Gaussia princeps Prolume KDEL luciferase), SEQ ID NO:49 (nucleotide sequence encoding intracellular Gaussia princeps Mutant 1 luciferase), SEQ ID NO:51 (nucleotide sequence encoding intracellular Gaussia princeps Mutant 2 luciferase), SEQ ID NO:135 (nucleotide sequence encoding intracellular Metridia pacifica 2a luciferase), SEQ ID NO:137 (nucleotide sequence encoding intracellular Metridia pacifica 2bv1 luciferase), SEQ ID NO:139 (nucleotide sequence encoding intracellular Metridia pacifica 2bv2 luciferase), SEQ ID NO:141 (nucleotide sequence encoding intracellular Metridia longa 22 luciferase), SEQ ID NO:143 (nucleotide sequence encoding intracellular Metridia pacifica v1&2&3 luciferases), SEQ ID NO:145 (nucleotide sequence encoding intracellular Metridia longa 39 luciferase), SEQ ID NO:147 (nucleotide sequence encoding intracellular Metridia longa 7 luciferase), SEQ ID NO:149 (nucleotide sequence encoding intracellular Metridia longa GS luciferase), SEQ ID NO:151 (nucleotide sequence encoding intracellular Metridia longa 164M3&v1 luciferase), SEQ ID NO:153 (nucleotide sequence encoding intracellular Metridia longa 164v2 luciferase), SEQ ID NO:155 (nucleotide sequence encoding intracellular Metridia longa 16 luciferase), SEQ ID NO:157 (nucleotide sequence encoding intracellular Metridia longa 45 luciferase], SEQ ID NO:159 (nucleotide sequence encoding intracellular Metridia longa 52 luciferase), SEQ ID NO:161 (nucleotide sequence encoding intracellular Metridia longa AL luciferase), or SEQ ID NO:81 (nucleotide sequence encoding intracellular Metridia longa GS luciferase), or a complement thereof;

(b) a nucleotide sequence that shares at least 70% (and at least 71% to at least 99% and all integer percentages in between) sequence identity with the sequence set forth in any one of SEQ ID NO: 45, 47, 49, 51, 81, 135, 137, 139, 141, 143, 145, 147, 149, 151, 153, 155, 157, 159 or 161, or a complement thereof; or

(c) a nucleotide sequence that hybridizes under at least low, medium or high stringency conditions to the sequence set forth in any one of SEQ ID NO: 45, 47, 49, 51, 81, 135, 137, 139, 141, 143, 145, 147, 149, 151, 153, 155, 157, 159 or 161, or a complement thereof.

In some embodiments, the nucleic acid molecules further comprise a nucleotide sequence encoding a signal peptide, representative examples of which are selected from:

(a) a nucleotide sequence that encodes an amino acid sequences selected from any one of 82, 84, 86, 88, 90, 92, 94, 96, 98, 100 or 102;

(b) a nucleotide sequence as set forth in any one of SEQ ID NO:83 (nucleotide sequence encoding signal peptide of Gaussia princeps Prolume, Prolume KDEL, Mutant 1 or Mutant 2 luciferases), SEQ ID NO:85 (nucleotide sequence encoding signal peptide of Metridia pacifica 2a, 2bv1, 2bv2 or Metridia longa 22 luciferases), SEQ ID NO:87 (nucleotide sequence encoding signal peptide of Metridia pacifica 1v1 luciferase), SEQ ID NO:89 (nucleotide sequence encoding signal peptide of Metridia pacifica 1v2 luciferase), SEQ ID NO:91 (nucleotide sequence encoding signal peptide of Metridia pacifica 1v3 luciferase), SEQ ID NO:93 (nucleotide sequence encoding signal peptide of Metridia longa 39 luciferase), SEQ ID NO:95 (nucleotide sequence encoding signal peptide of Metridia longa 7 luciferase), SEQ ID NO:97 (nucleotide sequence encoding signal peptide of Metridia longa 164M3, v1 or v2 luciferases), SEQ ID NO:99 (nucleotide sequence encoding signal peptide of Metridia longa 16 luciferase), SEQ ID NO:101 (nucleotide sequence encoding signal peptide of Metridia longa 45 and 52 luciferases) or SEQ ID NO:103 (nucleotide sequence encoding signal peptide of Metridia longa AL luciferase), or a complement thereof;

(b) a nucleotide sequence that shares at least 70% (and at least 71% to at least 99% and all integer percentages in between) sequence identity with the sequence set forth in any one of SEQ ID NO: 83, 85, 87, 89, 91, 93, 95, 97, 99, 101 or 103, or a complement thereof; or

(c) a nucleotide sequence that hybridizes under at least low, medium or high stringency conditions to the sequence set forth in any one of SEQ ID NO: 83, 85, 87, 89, 91, 93, 95, 97, 99, 101 or 103, or a complement thereof.

Suitably, the nucleic acid molecules exclude a nucleotide sequence encoding a secretion-enhancing sequence, representative examples of which include:

a nucleotide sequence as set forth in any one of SEQ ID NO:105 (nucleotide sequence encoding secretion-enhancing sequence of Gaussia princeps Prolume, Prolume KDEL, Mutant 1 and Mutant 2 luciferases), SEQ ID NO:107 (nucleotide sequence encoding secretion-enhancing sequence of Metridia pacifica 2a luciferase), SEQ ID NO:109 (nucleotide sequence encoding secretion-enhancing sequence of Metridia pacifica 2bv1&2 luciferases), SEQ ID NO:111 (nucleotide sequence encoding secretion-enhancing sequence of Metridia longa 22 luciferase), SEQ ID NO:113 (nucleotide sequence encoding secretion-enhancing sequence of Metridia pacifica v1&2&3 luciferases), SEQ ID NO:115 (nucleotide sequence encoding secretion-enhancing sequence of Metridia longa 39 luciferase), SEQ ID NO:117 (nucleotide sequence encoding secretion-enhancing sequence of Metridia longa GS), SEQ ID NO:119 (nucleotide sequence encoding secretion-enhancing sequence of Metridia longa 7 luciferase), SEQ ID NO:121 (nucleotide sequence encoding secretion-enhancing sequence of Metridia longa 164M3 luciferase), SEQ ID NO:123 (nucleotide sequence encoding secretion-enhancing sequence of Metridia longa 164v1&2 luciferases), SEQ ID NO:125 (nucleotide sequence encoding secretion-enhancing sequence of Metridia longa 16 luciferase), SEQ ID NO:127 (nucleotide sequence encoding secretion-enhancing sequence of Metridia longa 45 luciferase), SEQ ID NO:129 (nucleotide sequence encoding secretion-enhancing sequence of Metridia longa 52 luciferase), SEQ ID NO:131 (nucleotide sequence encoding secretion-enhancing sequence of Metridia longa AL luciferase).

In some embodiments, the polypeptide encoded by a nucleic acid molecule as broadly described above has any one or more activities selected from the group consisting of: enhanced luminescence, stronger flash signal intensity, enhanced glow signal intensity, enhanced stability of glow signal and enhanced effective temperature range, including elevated optimal temperature range, for operation of the enzyme relative to a reference luciferase polypeptide which comprises a functional secretion enhancing sequence.

The present inventors have also discovered that modification of certain 4-residue motifs, which include a conserved cysteine (e.g., C₅, C₆, C₉ and C₁₀, can significantly improve one or more light-emitting characteristics of luciferases, especially copepod luciferases, wherein the light-emitting characteristics are selected from: luminescence, flash signal intensity, glow signal intensity, glow signal stability and effective temperature range, including elevated optimal temperature range, of luciferase operation. Accordingly, in yet another aspect, the present invention provides polypeptides, which are suitably in isolated, synthetic, recombinant or purified form, which comprise, consist or consist essentially of an amino acid sequence having luciferase activity, wherein the amino acid sequence is selected from:

-   -   (a) an amino acid sequence represented by formula X:

(X) X₁PGKKX₂PX₃X₄VX₅X₆EX₇EANAX₈X₉AGC₁X₁₀RGC₂LX₁₁C₃LS X₁₂IKC₄TX₁₃X₁₄MX₁₅X₁₆X₁₇IPGB ₁ C ₅ X ₁₈ X ₁₉YX₂₀GDKX₂₁X₂₂ X₂₃QX₂₄GIX₂₅X₂₆X₂₇X₂₈IVDX₂₉PEIX₃₀GFKX₃₁X₃₂X₃₃PX₃₄ X₃₅QFIAQVX₃₆ X ₃₇ C ₆ X ₃₈ X ₃₉C₇X₄₀TGC₈LKGLANVX ₄₁ C ₉ ΣX ₄₂ LLKKWLPX₄₃B₂C₁₀X₄₄X₄₅FAX₄₆KIQX₄₇X₄₈X₄₉X₅₀X₅₁ IKGX₅₂ X₅₃GD wherein:

-   -   X₁ is selected from hydrophobic amino acid residues (e.g.,         aliphatic amino acid residues such as L or M, or modified form         thereof) or basic amino acid residues (e.g., H, or modified form         thereof);     -   X₂ is selected from hydrophobic amino acid residues (e.g.,         aliphatic amino acid residues such as L or M, or modified form         thereof);     -   X₃ is selected from hydrophobic amino acid residues (e.g.,         aliphatic amino acid residues such as L, or modified form         thereof) or basic amino acid residues (e.g., K, or modified form         thereof);     -   X₄ is selected from hydrophobic amino acid residues (e.g.,         aliphatic amino acid residues such as A, or modified form         thereof) or acidic amino acid residues (e.g., E, or modified         form thereof);     -   X₅ is selected from hydrophobic amino acid residues (e.g.,         aliphatic amino acid residues such as I or L, or modified form         thereof) or small amino acid residues (e.g., P, or modified form         thereof);     -   X₆ is selected from hydrophobic amino acid residues (e.g.,         aliphatic amino acid residues such as I, M or V, or modified         form thereof) or basic amino acid residues (e.g., K, or modified         form thereof);     -   X₇ is selected from hydrophobic amino acid residues (e.g.,         aliphatic amino acid residues such as M, I or L, or modified         form thereof);     -   X₈ is selected from basic amino acid residues (e.g., K or R, or         modified form thereof) or hydrophobic amino acid residues (e.g.,         aromatic amino acid residues such as F, or modified form         thereof);     -   X₉ is selected from basic amino acid residues (e.g., K or R, or         modified form thereof);     -   X₁₀ is selected from small amino acid residues (e.g., T, or         modified form thereof) or basic amino acid residues (e.g., H, or         modified form thereof);     -   X₁₁ is selected from hydrophobic amino acid residues (e.g.,         aliphatic amino acid residues such as I or V, or modified form         thereof);     -   X₁₂ is selected from basic amino acid residues (e.g., H or K, or         modified form thereof);     -   X₁₃ is selected from small amino acid residues (e.g., P or A, or         modified form thereof) or basic amino acid residues (e.g., K, or         modified form thereof);     -   X₁₄ is selected from basic amino acid residues (e.g., K, or         modified form thereof) or neutral/polar amino acid residues         (e.g., Q, or modified form thereof);     -   X₁₅ is selected from basic amino acid residues (e.g., K, or         modified form thereof) or neutral/polar amino acid residues         (e.g., Q, or modified form thereof);     -   X₁₆ is selected from any amino acid residue (e.g., basic amino         acid residues such as K, or modified form thereof, hydrophobic         amino acid residues including aliphatic amino acid residues such         as V, or modified form thereof, or neutral/polar amino acid         residues such as Q, or modified form thereof);     -   B₁ is selected from basic amino acid residues (e.g., R or K, or         modified form thereof);     -   X₁₇ is selected from hydrophobic amino acid residues (e.g.,         aromatic amino acid residues such as F or Y, or modified form         thereof);     -   X₁₈ is selected from basic amino acid residues (e.g., H, or         modified form thereof) or small amino acid residues (e.g., A, or         modified form thereof);     -   X₁₉ is selected from acidic amino acid residues (e.g., D, or         modified form thereof) or small amino acid residues (e.g., T or         S, or modified form thereof);     -   X₂₀ is selected from acidic amino acid residues (e.g., E, or         modified form thereof) or small amino acid residues (e.g., G or         A, or modified form thereof);     -   X₂₁ is selected from acidic amino acid residues (e.g., D or E,         or modified form thereof) or basic amino acid residues (e.g., K,         or modified form thereof);     -   X₂₂ is selected from small amino acid residues (e.g., S or T, or         modified form thereof);     -   X₂₃ is selected from small amino acid residues (e.g., G or A, or         modified form thereof);     -   X₂₄ is selected from small amino acid residues (e.g., G or A, or         modified form thereof);     -   X₂₅ is selected from small amino acid residues (e.g., G or A, or         modified form thereof) or hydrophobic amino acid residues (e.g.,         aliphatic amino acid residues such as V, or modified form         thereof);     -   X₂₆ is absent or selected from small amino acid residues (e.g.,         G, or modified form thereof);     -   X₂₇ is selected from acidic amino acid residues (e.g., E, or         modified form thereof) or small amino acid residues (e.g., G, or         modified form thereof);     -   X₂₈ is selected from small amino acid residues (e.g., A, or         modified form thereof) or acidic amino acid residues (e.g., E,         or modified form thereof);     -   X₂₉ is selected from hydrophobic amino acid residues (e.g.,         aliphatic amino acid residues such as I or M, or modified form         thereof);     -   X₃₀ is selected from small amino acid residues (e.g., P, S or A,         or modified form thereof);     -   X₃₁ is selected from acidic amino acid residues (e.g., D or E,         or modified form thereof);     -   X₃₂ is selected from hydrophobic amino acid residues (e.g.,         aliphatic amino acid residues such as L or M, or modified form         thereof) or basic amino acid residues (e.g., K, or modified form         thereof);     -   X₃₃ is selected from charged amino acid residues (e.g., acidic         amino acid residues such as E, or modified form thereof, or         basic amino acid residues such as K, or modified form thereof)         or small amino acid residues (e.g., G or A, or modified form         thereof);     -   X₃₄ is selected from hydrophobic amino acid residues (e.g.,         aliphatic amino acid residues such as M or L, or modified form         thereof);     -   X₃₅ is selected from acidic amino acid residues (e.g., E or D,         or modified form thereof);     -   X₃₆ is selected from acidic amino acid residues (e.g., D or E,         or modified form thereof);     -   X₃₇ is selected from hydrophobic amino acid residues (e.g.,         aliphatic amino acid residues such as L, or modified form         thereof) or basic amino acid residues (e.g., R, or modified form         thereof);     -   X₃₈ is selected from any amino acid (e.g., hydrophobic amino         acid residues including aliphatic amino acid residues such as V,         or modified form thereof, or small amino acid residues such as A         or T, or modified form thereof, or basic amino acid residues         such as H or modified form thereof, or acidic amino acid         residues such as E or D, or modified form thereof);     -   X₃₉ is selected from acidic amino acid residues (e.g., D, or         modified form thereof) or small amino acid residues (e.g., S or         T, or modified form thereof);     -   X₄₀ is selected from small amino acid residues (e.g., T, or         modified form thereof) or neutral/polar amino acid residues         (e.g., N, or modified form thereof);     -   X₄₁ is selected from basic amino acid residues (e.g., K, R or H,         or modified form thereof) or neutral/polar amino acid residues         (e.g., Q, or modified form thereof);     -   Σ is selected from small amino acid residues (e.g., S, A or T,         or modified form thereof);     -   X₄₂ is selected from acidic amino acid residues (e.g., D or E,         or modified form thereof) or small amino acid residues (e.g., A,         or modified form thereof);     -   X₄₃ is selected from any amino acid residue (e.g., small amino         acid residues such as P, G, T, S or A, or modified form thereof,         or neutral/polar amino acid residues such as Q or N, or modified         form thereof, basic amino acid residues such as H, K or R or         modified form thereof, or acidic amino acid residues such as D         or E, or modified form thereof);     -   B₂ is selected from basic amino acid residues (e.g., R or K, or         modified form thereof);     -   X₄₄ is selected from small amino acid residues (e.g., A, or         modified form thereof) or basic amino acid residues (e.g., K, or         modified form thereof);     -   X₄₅ is selected from small amino acid residues (e.g., S or T, or         modified form thereof);     -   X₄₆ is selected from acidic amino acid residues (e.g., D, or         modified form thereof) or small amino acid residues (e.g., S, or         modified form thereof);     -   X₄₇ is selected from small amino acid residues (e.g., G or S, or         modified form thereof) or basic amino acid residues (e.g., K, or         modified form thereof);     -   X₄₈ is selected from neutral/polar amino acid residues (e.g., Q,         or modified form thereof) or acidic amino acid residues (e.g.,         E, or modified form thereof);     -   X₄₉ is selected from hydrophobic amino acid residues (e.g.,         aliphatic amino acid residues such as V, or modified form         thereof) or small amino acid residues (e.g., A, or modified form         thereof);     -   X₅₀ is selected from charged amino acid residues (e.g., acidic         amino acid residues such as D, or modified form thereof, or         basic amino acid residues such as H, or modified form thereof);     -   X₅₁ is selected from any amino acid residue (e.g., basic amino         acid residues such as K, or modified form thereof, or         neutral/polar amino acid residues such as N, or modified form         thereof, or small amino acid residues such as T, or modified         form thereof);     -   X₅₂ is selected from small amino acid residues (e.g., A, or         modified form thereof) or hydrophobic amino acid residues (e.g.,         aliphatic amino acid residues such as L or M, or modified form         thereof); and     -   X₅₃ is selected from small amino acid residues (e.g., G or A, or         modified form thereof),         with the proviso that at least one subsequence selected from         B₁C₅X₁₈X₁₉, X₃₇C₆X₃₈X₃₉ or X₄₁C₉ΣX₄₂ consists of an amino acid         sequence represented by formula XI:         BCΩD  (XI)         wherein:     -   B is selected from basic amino acid residues (e.g., R or K, or         modified form thereof); and     -   Ω is selected from small amino acid residues (e.g., A, S or T,         or modified form thereof) or acidic amino acid residues (e.g.,         E, or modified form thereof), or     -   (b) an amino acid sequence which shares at least 70% (and at         least 71% to at least 99% and all integer percentages in         between) sequence similarity or sequence identity with the amino         acid sequence represented by formula X, and which comprises at         least one subsequence selected from B₁C₅X₁₈X₁₉, X₃₇C₆X₃₈X₃₉ or         X₄₁C₉ΣX₄₂ wherein an individual subsequence consists of an amino         acid sequence represented by formula XI as defined above.

In some embodiments, the polypeptide is other than one consisting of an amino acid sequence selected from:

[SEQ ID NO: 166] (1) MGVKLIFAVVCVAAAQAATINENFEDIDLVAIGGSFALDVDANRGGHGGHPGKKM PKEVLVEMEANAKRAGCHRGCLICLSHIKCTKKMKKFIPGRCHSYEGDKDSAQGGIGEEIVD MPEIPGFKDKEPMDQFIAQVDLCVDCTTGCLKGLANVHCSDLLKKWLPSRCKTFASKIQSQV DTIKGLAGDR (full-length Metridia pacifica 2bv1 luciferase); [SEQ ID NO: 168] (2) MGVKLIFAVVCVAAAQAATINENFEDIDLVAIGGSFALDVDANRGGHGGHPGKKM PKEVPVEMEANAKRAGCHRGCLICLSHIKCTKKMKKFIPGRCHSYEGDKDSAQGGIGEEIVD MPEIPGFKDKEPMDQFIAQVDLCVDCTTGCLKGLANVHCSDLLKKWLPSRCKTFASKIQSQV DTIKGLAGDR  (full-length Metridia pacifica 2bv2 luciferase); and [SEQ ID NO: 170] (3) MGVKLIFAVVCVAVAQAATIQENFEDIDLVAIGGSFASDVDANRGGHGGHPGKKM PKEVLMEMEANAKRAGCHRGCLVCLSHIKCTAQMQKFIPGRCHSYAGDKDSAQGGIAGGAI VDIPEIAGFKEMKPMEQFIAQVDLCEDCTTGCLKGLANVHCSDLLKKWLPSRCKTFASKIQSQ VDTIKGLAGDR (full-length Metridia longa 22 luciferase); [SEQ ID NO: 172] (4) MDIKVLFALICIALVQANPTENNDHINIVGIEGKFGITDLETDLFTIWETNRMISTDNE QANTDSNRGKMPGKKLPLAVLIEMEANAFKAGCTRGCLICLSKIKCTAKMKKYIPGRCHDYG GDKKTGQAGIVGAIVDIPDISGFKEMGPMEQFIAQVDRCTDCTTGCLKGLANVKCSELLKKW LPDRCASFADKIQSEVHNIKGLAGDR (full-length Metridia longa 39 luciferase).

In some embodiments, at least two subsequences selected from B₁C₅X₁₈X₁₉, X₃₇C₆X₃₈X₃₉ or X₄₁C₉ΣX₄₂ each consist of an amino acid sequence represented by formula XI. In other embodiments, each subsequence selected from B₁C₅X₁₈X₁₉, X₃₇C₆X₃₈X₃₉ or X₄₁C₉ΣX₄₂ consists of an amino acid sequence represented by formula XI.

In some embodiments, B of formula XI is selected from R or K, or modified form thereof.

In some embodiments, Ω of formula XI is selected from A, S, T or E, or modified form thereof. In specific embodiments, X₁₈ is A or modified form thereof. In specific embodiments, X₃₈ is selected from A, T, D or E, or modified form thereof. In specific embodiments, Σ is selected from S, T or A, or modified form thereof.

In some embodiments, B of formula XI is selected from R or K, or modified form thereof, and Ω of formula XI is selected from A, S, T or E, or modified form thereof.

In some embodiments, the polypeptides further comprise upstream (e.g., immediately upstream) of the sequence represented by formula X an amino acid sequence represented by formula IX: X₅₄X₅₅X₅₆X₅₇X₅₈RGO₁X₅₉  (IX)

-   -   wherein:     -   X₅₄ is absent or is selected from acidic amino acid residues         (e.g., D or E, or modified form thereof) or neutral/polar amino         acid residues (e.g., N, or modified form thereof), wherein X₅₄         is present in some embodiments with the proviso that X₅₅ is         present;     -   X₅₅ is absent or is selected from any amino acid residue (e.g.,         hydrophobic amino acid residues including aliphatic amino acid         residues such as L or V, or modified form thereof; small amino         acid residues such as S, T or A, or modified form thereof; or         neutral/polar amino acid residues such as N, or modified form         thereof), wherein X₅₅ is present in some embodiments with the         proviso that X₅₆ is present;     -   X₅₆ is absent or is selected from acidic amino acid residues         (e.g., D or E, or modified form thereof), wherein X₅₆ is present         in some embodiments with the proviso that X₅₇ is present;     -   X₅₇ is absent or is selected from any amino acid residue (e.g.,         hydrophobic amino acid residue including aliphatic amino acid         residues such as V, or modified form thereof; or small amino         acid residues such as S, T or A, or modified form thereof),         wherein X₅₇ is present in some embodiments with the proviso that         X₅₈ is present;     -   X₅₈ is selected from acidic amino acid residues (e.g., D or E,         or modified form thereof) or neutral/polar amino acid residues         (e.g., N, or modified form thereof), wherein X₅₈ is present in         some embodiments with the proviso that O₁ is present;     -   O₁ is absent or is the sequence J₁J₂J₃, wherein J₁ is selected         from small amino acid residues (e.g., G or modified form         thereof), J₂ is selected from basic amino acid residues (e.g., H         or modified form thereof), and J₃ is selected from small amino         acid residues (e.g., G or modified form thereof), wherein O₁ is         present in some embodiments with the proviso that X₅₉ is         present; and     -   X₅₉ is selected from basic amino acid residues (e.g., K, or         modified form thereof); or small amino acid residues (e.g., G or         modified form thereof).

In some embodiments, the polypeptides comprise, consist or consist essentially of an amino acid sequence represented by formula XII: Z₁-Π-Z₂  (XII)

wherein:

Π is selected from the amino acid sequence represented by formula X or an amino acid sequence that shares at least 70% (and at least 71% to at least 99% and all integer percentages in between) sequence similarity or sequence identity with the amino acid sequence represented by formula X;

Z₁ is absent or is selected from at least one of a proteinaceous moiety comprising from about 1 to about 80 amino acid residues (and all integer residues in between), an amino acid residue for initiation of protein synthesis in vivo (e.g., M or modified form thereof), and a protecting moiety (e.g., an N-terminal blocking residue such as pyroglutamate); and

Z₂ is absent or is a proteinaceous moiety comprising from about 1 to about 50 amino acid residues (and all integer residues in between).

Suitably, Z₁ comprises, consists or consists essentially of a signal peptide for secreting the polypeptide to an extracellular location. In some embodiments, the signal peptide comprises an amino acid sequence represented by formula IV as broadly defined above. Representative signal peptides comprise, consist or consist essentially of an amino acid sequence selected from the group consisting of:

(a) an amino acid sequence selected from SEQ ID NO: 84, 86, 88, 90, 92, 94, 96, 98, 100, 102 or 104;

(b) an amino acid sequence that shares at least 70% (and at least 71% to at least 99% and all integer percentages in between) sequence similarity or sequence identity with the sequence set forth in any one of SEQ ID NO: 84, 86, 88, 90, 92, 94, 96, 98, 100, 102 or 104;

(c) an amino acid sequence which is encoded by the nucleotide sequence set forth in any one of SEQ ID NO: 83, 85, 87, 89, 91, 93, 95, 97, 99, 101 or 103;

(d) an amino acid sequence which is encoded by a nucleotide sequence that shares at least 70% (and at least 71% to at least 99% and all integer percentages in between) sequence identity with the sequence set forth in any one of SEQ ID NO: 83, 85, 87, 89, 91, 93, 95, 97, 99, 101 or 103, or a complement thereof; or

(e) an amino acid sequence which is encoded by a nucleotide sequence that hybridizes under at least medium or high stringency conditions to the sequence set forth in any one of SEQ ID NO: 83, 85, 87, 89, 91, 93, 95, 97, 99, 101 or 103, or a complement thereof.

In some embodiments, Z₁ comprises, consists or consists essentially of a secretion-enhancing sequence, non-limiting examples of which are selected from:

(a) an amino acid sequence as set forth in any one of SEQ ID NO: 106, 107, 108, 110, 112, 114, 116, 118, 120, 122, 124, 126, 128, 130 or 132; or;

(b) an amino acid sequence that shares at least 70% (and at least 71% to at least 99% and all integer percentages in between) sequence similarity or sequence identity with the sequence set forth in any one of SEQ ID NO: 106, 107, 108, 110, 112, 114, 116, 118, 120, 122, 124, 126, 128, 130 or 132;

(c) an amino acid sequence which is encoded by a nucleotide sequence set forth in any one of SEQ ID NO: 105, 107, 109, 111, 113, 115, 117, 119, 121, 123, 125, 127, 129 or 131, or a complement thereof;

(d) an amino acid sequence which is encoded by a nucleotide sequence that shares at least 70% (and at least 71% to at least 99% and all integer percentages in between) sequence identity with the sequence set forth in any one of SEQ ID NO: 105, 107, 109, 111, 113, 115, 117, 119, 121, 123, 125, 127, 129 or 131, or a complement thereof; or

(e) an amino acid sequence which is encoded by a nucleotide sequence that hybridizes under at least medium or high stringency conditions to the sequence set forth in any one of SEQ ID NO: 105, 107, 109, 111, 113, 115, 117, 119, 121, 123, 125, 127, 129 or 131, or a complement thereof.

In some embodiments, the polypeptides according to formula X comprise, consist or consist essentially of an amino acid sequence selected from the group consisting of:

(a) an amino acid sequence selected from:

[SEQ ID NO: 174] MGVKVLFALICIAVAEAKPTENNEDFNIVAVASNFATTDLDADRGKLPGK KLPLEVLKEMEANARKAGCTRGCLICLSHIKCTPKMKKFIPGRCADYEGDKESAQGGIGEAIV DIPEIPGFKDLEPMEQFIAQVDLCVDCTTGCLKGLANVQCSDLLKKWLPQRCATFASKIQGQV DKIKGAGGD (full-length sequence of Gaussia princeps Prolume luciferase with RCAD substitution at C₅); [SEQ ID NO: 176] MGVKVLFALICIAVAEAKPTENNEDFNIVAVASNFATTDLDADRGKLPGK KLPLEVLKEMEANARKAGCTRGCLICLSHIKCTPKMKKFIPGRCADYEGDKESAQGGIGEAIV DIPEIPGFKDLEPMEQFIAQVDLCVDCTTGCLKGLANVQCSDLLKKWLPQRCATFASKIQGQV DKIKGAGGDKDEL (full-length sequence of Gaussia princeps Prolume KDEL luciferase with RCAD substitution at C₅); [SEQ ID NO: 178] MGVKVLFALICIAVAEAKPTENNEDFNIVAVASNFATTDLDADRGKLPGK KLPLEVLKEIEANARKAGCTRGCLICLSHIKCTPKMKKFIPGRCADYEGDKESAQGGIGEAIV DIPEIPGFKDLEPMEQFIAQVDLCVDCTTGCLKGLANVQCSDLLKKWLPQRCATFASKIQGQV DKIKGAGGD (full-length sequence of Gaussia princeps Mutant 1 luciferase with RCAD substitution at C₅); [SEQ ID NO: 180] MGVKVLFALICIAVAEAKPTENNEDFNIVAVASNFATTDLDADRGKLPGK KLPLEVLKELEANARKAGCTRGCLICLSHIKCTPKMKKFIPGRCADYEGDKESAQGGIGEAIV DIPEIPGFKDLEPLEQFIAQVDLCVDCTTGCLKGLANVQCSDLLKKWLPQRCATFASKIQGQV DKIKGAGGD (full-length sequence of Gaussia princeps Mutant 2 luciferase with RCAD substitution at C₅); [SEQ ID NO: 182] MEAKPTENNEDFNIVAVASNFATTDLDADRGKLPGKKLPLEVLKEMEANA RKAGCTRGCLICLSHIKCTPKMKKFIPGRCADYEGDKESAQGGIGEAIVDIPEIPGFKDLEPME QFIAQVDLCVDCTTGCLKGLANVQCSDLLKKWLPQRCATFASKIQGQVDKIKGAGGD (full-length sequence of Gaussia princeps GS luciferase with RCAD  substitution at C₅); [SEQ ID NO: 184] MGVKLIFAVLCVAAAQAATINENFEDIDVVAIGGSFALDVDANRGGHGGH PGKKMPKEVLVEMEANAKRAGCHRGCLICLSHIKCTKKMKKFIPGRCADYEGDKDSAQGGI GEEIVDMPEIPGFKDKEPMDQFIAQVDLCVDCTTGCLKGLANVHCSALLKKWLPSRCKTFAS KIQSQVDTIKGLAGDR (full-length Metridia pacifica 2a luciferase with RCAD substitution at C₅); [SEQ ID NO: 186] MGVKLIFAVVCVAAAQAATINENFEDIDLVAIGGSFALDVDANRGGHGGH PGKKMPKEVLVEMEANAKRAGCHRGCLICLSHIKCTKKMKKFIPGRCADYEGDKDSAQGGI GEEIVDMPEIPGFKDKEPMDQFIAQVDLCVDCTTGCLKGLANVHCSDLLKKWLPSRCKTFAS KIQSQVDTIKGLAGDR (full-length Metridia pacifica 2bv1 luciferase with RCAD substitution at C₅); [SEQ ID NO: 188] MGVKLIFAVVCVAAAQAATINENFEDIDLVAIGGSFALDVDANRGGHGGH PGKKMPKEVPVEMEANAKRAGCHRGCLICLSHIKCTKKMKKFIPGRCADYEGDKDSAQGGI GEEIVDMPEIPGFKDKEPMDQFIAQVDLCVDCTTGCLKGLANVHCSDLLKKWLPSRCKTFAS KIQSQVDTIKGLAGDR (full-length Metridia pacifica 2bv2 luciferase with RCAD substitution at C₅); [SEQ ID NO: 190] MGVKLIFAVVCVAVAQAATIQENFEDIDLVAIGGSFASDVDANRGGHGGH PGKKMPKEVLMEMEANAKRAGCHRGCLVCLSHIKCTAQMQKFIPGRCADYAGDKDSAQGG IAGGAIVDIPEIAGFKEMKPMEQFIAQVDLCEDCTTGCLKGLANVHCSDLLKKWLPSRCKTFA SKIQSQVDTIKGLAGDR (full-length Metridia longa 22 luciferase with RCAD substitution at C₅); [SEQ ID NO: 192] MMEIQVLFALICFALVQANPTENKDDIDIVGVEGKFGTTDLETDLFTIVED MNVISRDTNLANSDADRGKMPGKKLPLEVLIEMEANARKAGCTRGCLICLSKIKCTAKMKV YIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKELGPMEQFIAQVDLCADCTTGCLKGLANV KCSALLKKWLPDRCASFADKIQSEVDNIKGLAGDR (full-length Metridia pacifica 1v1 luciferase with RCAD substitution at C₅); [SEQ ID NO: 194] MMEIKVLFALICFALVQANPTENKDDIDIVGVEGKFGTTDLETDLFTIVED MNVISRDTNLANSDADRGKMPGKKLPLEVLIEMEANARKAGCTRGCLICLSKIKCTAKMKV YIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKELGPMEQFIAQVDLCADCTTGCLKGLANV KCSALLKKWLPDRCASFADKIQSEVDNIKGLAGDR (full-length Metridia pacifica 1v2 luciferase with RCAD substitution at C₅); [SEQ ID NO: 196] MMEVKVVFALICFALVQANPTENKDDIDIVGVEGKFGTTDLETDLFTIVED MNVISRDTNLANSDADRGKMPGKKLPLEVLIEMEANARKAGCTRGCLICLSKIKCTAKMKV YIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKELGPMEQFIAQVDLCADCTTGCLKGLANV KCSALLKKWLPDRCASFADKIQSEVDNIKGLAGDR (full-length Metridia pacifica 1v3 luciferase with RCAD substitution at C₅); [SEQ ID NO: 198] MDIKVLFALICIALVQANPTENNDHINIVGIEGKFGITDLETDLFTIWETNRM ISTDNEQANTDSNRGKMPGKKLPLAVLIEMEANAFKAGCTRGCLICLSKIKCTAKMKKYIPGR CADYGGDKKTGQAGIVGAIVDIPDISGFKEMGPMEQFIAQVDRCTDCTTGCLKGLANVKCSE LLKKWLPDRCASFADKIQSEVHNIKGLAGDR (full-length Metridia longa 39 luciferase with RCAD substitution at C₅); [SEQ ID NO: 200] MDIKFIFALVCIALVQANPTVNNDVNRGKMPGKKLPLEVLIEMEANAFKA GCTRGCLICLSKIKCTAKMKQYIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKEMEPMEQFI AQVDLCADCTTGCLKGLANVKCSELLKKWLPDRCASFADKIQKEAHNIKGLAGDR (full-length Metridia longa 7 luciferase with RCAD substitution at C₅); [SEQ ID NO: 202] MKTDIADTDRASNFVATETDANRGKMPGKKLPLAVIMEMEANAFKAGCT RGCLICLSKIKCTAKMKVYIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQ VDRCASCTTGCLKGLANVKCSELLKKWLPDRCASFADKIQKEVHNIKGMAGDR (full-length Metridia longa GS luciferase with RCAD substitution at C₅); [SEQ ID NO: 204] MDIKVVFTLVFSALVQAQKTDIADTDRASNFVATETDANRGKMPGKKLPL AVIMEMEANAFKAGCTRGCLICLSKIKCTAKMKVYIPGRCADYGGDKKTGQAGIVGAIVDIP EISGFKEMAPMEQFIAQVDRCASCTTGCLKGLANVKCSELLKKWLPDRCASFADKIQKEVHN IKGMAGDR (full-length Metridia longa 164M3 luciferase with RCAD substitution at C₅); [SEQ ID NO: 206] MDIKVVFTLVFSALVQAKSTEFDPNIDIVGLEGKFGITNLETDLFTIWETME VMIKADIADTDRASNFVATETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIK CTAKMKVYIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDRCASCTTG CLKGLANVKCSELLKKWLPDRCASFADKIQKEVHNIKGMAGDR (full- length Metridia longa 164v1 luciferase with RCAD substitution at C₅); [SEQ ID NO: 208] MDIKVVFTLVFSALVQAKSTEFDPNIDIVGLEGKFGITNLETDLFTIWETME VMIKADIADTDRASNFVATETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIK CTAKMKVYIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVERCASCTTG CLKGLANVKCSELLKKWLPDRCASFADKIQKEVHNIKGMAGDR (full- length Metridia longa 164v2 luciferase with RCAD substitution at C₅); [SEQ ID NO: 210] MDMKVIFALIFSALVQAKSTEFDPNIDIVGLEGKFGITNLETDLFTIWETME VIKSDIADTDRVSNFVATETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCT AKMKVYIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDRCTSCTTGCL KGLANVKCSELLKKWLPDRCASFADKIQKEVHNIKGMAGDR (full-length Metridia longa 16 luciferase with RCAD substitution at C₅); [SEQ ID NO: 212] MDIKVVFALVFSALVQAKSTEFDPNIDIVGLEGKFGITNLETDLFTIWETME VIKTDIADTDRARSFVATETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCT AKMKVYIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKEMEPMEQFIAQVDRCASCTTGCL KGLANVKCSELLKKWLPDRCASFADKIQKEVHNIKGMAGDR (full-length Metridia longa 45 luciferase with RCAD substitution at C₅); [SEQ ID NO: 214] MDIKVVFALVFSALVQAKSTEFDPNIDVVGLEGKFGITNLETDLFTIWETM EVIKTDIADTDRARNFVATETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIK CTAKMKVYIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKEMEPMEQFIAQVDRCASCNTG CLKGLANVKCSELLKKWLPDRCASFADKIQKEVHNIKGMAGDR (full- length Metridia longa 52 luciferase with RCAD substitution at C₅); and [SEQ ID NO: 216] MDMRVIFALVFSSLVQAKSTEFDPNINIVGLEGKFGITNLETDLFTIWETMD VIKSDITDTDRVSNFVATETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCT AKMKVYIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDLCATCTTGCL KGLANVKCSELLKKWLPGRCASFADKIQKEVHNIKGMAGDR (full-length Metridia longa AL luciferase with RCAD substitution at C₅); [SEQ ID NO: 218] MGVKVLFALICIAVAEAKPTENNEDFNIVAVASNFATTDLDADRGKLPGK KLPLEVLKEMEANARKAGCTRGCLICLSHIKCTPKMKKFIPGRCHTYEGDKESAQGGIGEAIV DIPEIPGFKDLEPMEQFIAQVDRCADCTTGCLKGLANVQCSDLLKKWLPQRCATFASKIQGQV DKIKGAGGD (full-length sequence of Gaussia princeps Prolume luciferase with RCAD substitution at C₆); [SEQ ID NO: 220] MGVKVLFALICIAVAEAKPTENNEDFNIVAVASNFATTDLDADRGKLPGK KLPLEVLKEMEANARKAGCTRGCLICLSHIKCTPKMKKFIPGRCHTYEGDKESAQGGIGEAIV DIPEIPGFKDLEPMEQFIAQVDRCADCTTGCLKGLANVQCSDLLKKWLPQRCATFASKIQGQV DKIKGAGGDKDEL (full-length sequence of Gaussia princeps Prolume KDEL luciferase with RCAD substitution at C₆); [SEQ ID NO: 222] MGVKVLFALICIAVAEAKPTENNEDFNIVAVASNFATTDLDADRGKLPGK KLPLEVLKEIEANARKAGCTRGCLICLSHIKCTPKMKKFIPGRCHTYEGDKESAQGGIGEAIVD IPEIPGFKDLEPMEQFIAQVDRCADCTTGCLKGLANVQCSDLLKKWLPQRCATFASKIQGQVD KIKGAGGD (full-length sequence of Gaussia princeps Mutant 1 luciferase with RCAD substitution at C₆); [SEQ ID NO: 224] MGVKVLFALICIAVAEAKPTENNEDFNIVAVASNFATTDLDADRGKLPGK KLPLEVLKELEANARKAGCTRGCLICLSHIKCTPKMKKFIPGRCHTYEGDKESAQGGIGEAIV DIPEIPGFKDLEPLEQFIAQVDRCADCTTGCLKGLANVQCSDLLKKWLPQRCATFASKIQGQV DKIKGAGGD (full-length sequence of Gaussia princeps Mutant 2 luciferase with RCAD substitution at C₆); [SEQ ID NO: 226] MEAKPTENNEDFNIVAVASNFATTDLDADRGKLPGKKLPLEVLKEMEANA RKAGCTRGCLICLSHIKCTPKMKKFIPGRCHTYEGDKESAQGGIGEAIVDIPEIPGFKDLEPME QFIAQVDRCADCTTGCLKGLANVQCSDLLKKWLPQRCATFASKIQGQVDKIKGAGGD (full-length sequence of Gaussia princeps GS luciferase with  RCAD substitution at C₆) [SEQ ID NO: 228] MGVKLIFAVLCVAAAQAATINENFEDIDVVAIGGSFALDVDANRGGHGGH PGKKMPKEVLVEMEANAKRAGCHRGCLICLSHIKCTKKMKKFIPGRCHSYEGDKDSAQGGIG EEIVDMPEIPGFKDKEPMDQFIAQVDRCADCTTGCLKGLANVHCSALLKKWLPSRCKTFASKI QSQVDTIKGLAGDR (full-length Metridia pacifica 2a luciferase with RCAD substitution at C₆); [SEQ ID NO: 230] MGVKLIFAVVCVAAAQAATINENFEDIDLVAIGGSFALDVDANRGGHGGH PGKKMPKEVLVEMEANAKRAGCHRGCLICLSHIKCTKKMKKFIPGRCHSYEGDKDSAQGGIG EEIVDMPEIPGFKDKEPMDQFIAQVDRCADCTTGCLKGLANVHCSDLLKKWLPSRCKTFASKI QSQVDTIKGLAGDR (full-length Metridia pacifica 2bv1 luciferase with RCAD substitution at C₆); [SEQ ID NO: 232] MGVKLIFAVVCVAAAQAATINENFEDIDLVAIGGSFALDVDANRGGHGGH PGKKMPKEVPVEMEANAKRAGCHRGCLICLSHIKCTKKMKKFIPGRCHSYEGDKDSAQGGIG EEIVDMPEIPGFKDKEPMDQFIAQVDRCADCTTGCLKGLANVHCSDLLKKWLPSRCKTFASKI QSQVDTIKGLAGDR (full-length Metridia pacifica 2bv2 luciferase with RCAD substitution at C₆); [SEQ ID NO: 234] MGVKLIFAVVCVAVAQAATIQENFEDIDLVAIGGSFASDVDANRGGHGGH PGKKMPKEVLMEMEANAKRAGCHRGCLVCLSHIKCTAQMQKFIPGRCHSYAGDKDSAQGGI AGGAIVDIPEIAGFKEMKPMEQFIAQVDRCADCTTGCLKGLANVHCSDLLKKWLPSRCKTFA SKIQSQVDTIKGLAGDR (full-length Metridia longa 22 luciferase with RCAD substitution at C₆); [SEQ ID NO: 236] MMEIQVLFALICFALVQANPTENKDDIDIVGVEGKFGTTDLETDLFTIVED MNVISRDTNLANSDADRGKMPGKKLPLEVLIEMEANARKAGCTRGCLICLSKIKCTAKMKV YIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKELGPMEQFIAQVDRCADCTTGCLKGLANV KCSALLKKWLPDRCASFADKIQSEVDNIKGLAGDR (full-length Metridia pacifica 1v1 luciferase with RCAD substitution at C₆); [SEQ ID NO: 238] MMEIKVLFALICFALVQANPTENKDDIDIVGVEGKFGTTDLETDLFTIVED MNVISRDTNLANSDADRGKMPGKKLPLEVLIEMEANARKAGCTRGCLICLSKIKCTAKMKV YIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKELGPMEQFIAQVDRCADCTTGCLKGLANV KCSALLKKWLPDRCASFADKIQSEVDNIKGLAGDR (full-length Metridia pacifica 1v2 luciferase with RCAD substitution at C₆); [SEQ ID NO: 240] MMEVKVVFALICFALVQANPTENKDDIDIVGVEGKFGTTDLETDLFTIVED MNVISRDTNLANSDADRGKMPGKKLPLEVLIEMEANARKAGCTRGCLICLSKIKCTAKMKV YIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKELGPMEQFIAQVDRCADCTTGCLKGLANV KCSALLKKWLPDRCASFADKIQSEVDNIKGLAGDR (full-length Metridia pacifica 1v3 luciferase with RCAD substitution at C₆); [SEQ ID NO: 242] MDIKVLFALICIALVQANPTENNDHINIVGIEGKFGITDLETDLFTIWETNRM ISTDNEQANTDSNRGKMPGKKLPLAVLIEMEANAFKAGCTRGCLICLSKIKCTAKMKKYIPGR CHDYGGDKKTGQAGIVGAIVDIPDISGFKEMGPMEQFIAQVDRCADCTTGCLKGLANVKCSE LLKKWLPDRCASFADKIQSEVHNIKGLAGDR (full-length Metridia longa 39 luciferase with RCAD substitution at C₆); [SEQ ID NO: 244] MDIKFIFALVCIALVQANPTVNNDVNRGKMPGKKLPLEVLIEMEANAFKA GCTRGCLICLSKIKCTAKMKQYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMEPMEQFI AQVDRCADCTTGCLKGLANVKCSELLKKWLPDRCASFADKIQKEAHNIKGLAGDR (full-length Metridia longa 7 luciferase with RCAD substitution at C₆); [SEQ ID NO: 246] MKTDIADTDRASNFVATETDANRGKMPGKKLPLAVIMEMEANAFKAGCT RGCLICLSKIKCTAKMKVYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQ VDRCADCTTGCLKGLANVKCSELLKKWLPDRCASFADKIQKEVHNIKGMAGDR (full-length Metridia longa GS luciferase with RCAD substitution at C₆); [SEQ ID NO: 248] MDIKVVFTLVFSALVQAQKTDIADTDRASNFVATETDANRGKMPGKKLPL AVIMEMEANAFKAGCTRGCLICLSKIKCTAKMKVYIPGRCHDYGGDKKTGQAGIVGAIVDIP EISGFKEMAPMEQFIAQVDRCADCTTGCLKGLANVKCSELLKKWLPDRCASFADKIQKEVHN IKGMAGDR (full-length Metridia longa 164M3 luciferase with RCAD substitution at C₆); [SEQ ID NO: 250] MDIKVVFTLVFSALVQAKSTEFDPNIDIVGLEGKFGITNLETDLFTIWETME VMIKADIADTDRASNFVATETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIK CTAKMKVYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDRCADCTTG CLKGLANVKCSELLKKWLPDRCASFADKIQKEVHNIKGMAGDR (full- length Metridia longa 164v1 luciferase with RCAD substitution at C₆); [SEQ ID NO: 252] MDIKVVFTLVFSALVQAKSTEFDPNIDIVGLEGKFGITNLETDLFTIWETME VMIKADIADTDRASNFVATETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIK CTAKMKVYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVERCADCTTG CLKGLANVKCSELLKKWLPDRCASFADKIQKEVHNIKGMAGDR (full- length Metridia longa 164v2 luciferase with RCAD substitution at C₆); [SEQ ID NO: 254] MDMKVIFALIFSALVQAKSTEFDPNIDEVGLEGKFGITNLETDLFTIWETME VIKSDIADTDRVSNFVATETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCT AKMKVYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDRCADCTTGCL KGLANVKCSELLKKWLPDRCASFADKIQKEVHNIKGMAGDR (full-length Metridia longa 16 luciferase with RCAD substitution at C₆); [SEQ ID NO: 256] MDIKVVFALVFSALVQAKSTEFDPNIDIVGLEGKFGITNLETDLFTIWETME VIKTDIADTDRARSFVATETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCT AKMKVYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMEPMEQFIAQVDRCADCTTGCL KGLANVKCSELLKKWLPDRCASFADKIQKEVHNIKGMAGDR (full-length Metridia longa 45 luciferase with RCAD substitution at C₆); [SEQ ID NO: 258] MDIKVVFALVFSALVQAKSTEFDPNIDVVGLEGKFGITNLETDLFTIWETM EVIKTDIADTDRARNFVATETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIK CTAKMKVYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMEPMEQFIAQVDRCADCNTG CLKGLANVKCSELLKKWLPDRCASFADKIQKEVHNIKGMAGDR (full- length Metridia longa 52 luciferase with RCAD substitution at C₆); [SEQ ID NO: 260] MDMRVIFALVFSSLVQAKSTEFDPNINIVGLEGKFGITNLETDLFTIWETMD VIKSDITDTDRVSNFVATETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCT AKMKVYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDRCADCTTGCL KGLANVKCSELLKKWLPGRCASFADKIQKEVHNIKGMAGDR (full-length Metridia longa AL luciferase with RCAD substitution at C₆); [SEQ ID NO: 262] MGVKVLFALICIAVAEAKPTENNEDFNIVAVASNFATTDLDADRGKLPGK KLPLEVLKEMEANARKAGCTRGCLICLSHIKCTPKMKKFIPGRCHTYEGDKESAQGGIGEAIV DIPEIPGFKDLEPMEQFIAQVDLCVDCTTGCLKGLANVKCSDLLKKWLPQRCATFASKIQGQV DKIKGAGGD (full-length sequence of Gaussia princeps Prolume luciferase with KCSD substitution at C₉); [SEQ ID NO: 264] MGVKVLFALICIAVAEAKPTENNEDFNIVAVASNFATTDLDADRGKLPGK KLPLEVLKEMEANARKAGCTRGCLICLSHIKCTPKMKKFIPGRCHTYEGDKESAQGGIGEAIV DIPEIPGFKDLEPMEQFIAQVDLCVDCTTGCLKGLANVKCSDLLKKWLPQRCATFASKIQGQV DKIKGAGGDKDEL (full-length sequence of Gaussia princeps Prolume KDEL luciferase with KCSD substitution at C₉); [SEQ ID NO: 266] MGVKVLFALICIAVAEAKPTENNEDFNIVAVASNFATTDLDADRGKLPGK KLPLEVLKEIEANARKAGCTRGCLICLSHIKCTPKMKKFIPGRCHTYEGDKESAQGGIGEAIVD IPEIPGFKDLEPMEQFIAQVDLCVDCTTGCLKGLANVKCSDLLKKWLPQRCATFASKIQGQVD KIKGAGGD (full-length sequence of Gaussia princeps Mutant 1 luciferase with KCSD substitution at C₉); [SEQ ID NO: 268] MGVKVLFALICIAVAEAKPTENNEDFNIVAVASNFATTDLDADRGKLPGK KLPLEVLKELEANARKAGCTRGCLICLSHIKCTPKMKKFIPGRCHTYEGDKESAQGGIGEAIV DIPEIPGFKDLEPLEQFIAQVDLCVDCTTGCLKGLANVKCSDLLKKWLPQRCATFASKIQGQV DKIKGAGGD (full-length sequence of Gaussia princeps Mutant 2 luciferase with KCSD substitution at C₉); [SEQ ID NO: 270] MEAKPTENNEDFNIVAVASNFATTDLDADRGKLPGKKLPLEVLKEMEANA RKAGCTRGCLICLSHIKCTPKMKKFIPGRCHTYEGDKESAQGGIGEAIVDIPEIPGFKDLEPME QFIAQVDLCVDCTTGCLKGLANVKCSDLLKKWLPQRCATFASKIQGQVDKIKGAGGD (full-length sequence of Gaussia princeps GS luciferase with  KCSD substitution at C₉) [SEQ ID NO: 272] MGVKLIFAVLCVAAAQAATINENFEDIDVVAIGGSFALDVDANRGGHGGH PGKKMPKEVLVEMEANAKRAGCHRGCLICLSHIKCTKKMKKFIPGRCHSYEGDKDSAQGGIG EEIVDMPEIPGFKDKEPMDQFIAQVDLCVDCTTGCLKGLANVKCSDLLKKWLPSRCKTFASKI QSQVDTIKGLAGDR (full-length Metridia pacifica 2a luciferase with KCSD substitution at C₉); [SEQ ID NO: 274] MGVKLIFAVVCVAAAQAATINENFEDIDLVAIGGSFALDVDANRGGHGGH PGKKMPKEVLVEMEANAKRAGCHRGCLICLSHIKCTKKMKKFIPGRCHSYEGDKDSAQGGIG EEIVDMPEIPGFKDKEPMDQFIAQVDLCVDCTTGCLKGLANVKCSDLLKKWLPSRCKTFASKI QSQVDTIKGLAGDR (full-length Metridia pacifica 2bv1 luciferase with KCSD substitution at C₉); [SEQ ID NO: 276] MGVKLIFAVVCVAAAQAATINENFEDIDLVAIGGSFALDVDANRGGHGGH PGKKMPKEVPVEMEANAKRAGCHRGCLICLSHIKCTKKMKKFIPGRCHSYEGDKDSAQGGIG EEIVDMPEIPGFKDKEPMDQFIAQVDLCVDCTTGCLKGLANVKCSDLLKKWLPSRCKTFASKI QSQVDTIKGLAGDR (full-length Metridia pacifica 2bv2 luciferase with KCSD substitution at C₉); [SEQ ID NO: 278] MGVKLIFAVVCVAVAQAATIQENFEDIDLVAIGGSFASDVDANRGGHGGH PGKKMPKEVLMEMEANAKRAGCHRGCLVCLSHIKCTAQMQKFIPGRCHSYAGDKDSAQGGI AGGAIVDIPEIAGFKEMKPMEQFIAQVDLCEDCTTGCLKGLANVKCSDLLKKWLPSRCKTFA SKIQSQVDTIKGLAGDR (full-length Metridia longa 22 luciferase with KCSD substitution at C₉); [SEQ ID NO: 280] MMEIQVLFALICFALVQANPTENKDDIDIVGVEGKFGTTDLETDLFTIVED MNVISRDTNLANSDADRGKMPGKKLPLEVLIEMEANARKAGCTRGCLICLSKIKCTAKMKV YIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKELGPMEQFIAQVDLCADCTTGCLKGLANV KCSDLLKKWLPDRCASFADKIQSEVDNIKGLAGDR (full-length Metridia pacifica 1v1 luciferase with KCSD substitution at C₉); [SEQ ID NO: 282] MMEIKVLFALICFALVQANPTENKDDIDIVGVEGKFGTTDLETDLFTIVED MNVISRDTNLANSDADRGKMPGKKLPLEVLIEMEANARKAGCTRGCLICLSKIKCTAKMKV YIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKELGPMEQFIAQVDLCADCTTGCLKGLANV KCSDLLKKWLPDRCASFADKIQSEVDNIKGLAGDR (full-length Metridia pacifica 1v2 luciferase with KCSD substitution at C₉); [SEQ ID NO: 284] MMEVKVVFALICFALVQANPTENKDDIDIVGVEGKFGTTDLETDLFTIVED MNVISRDTNLANSDADRGKMPGKKLPLEVLIEMEANARKAGCTRGCLICLSKIKCTAKMKV YIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKELGPMEQFIAQVDLCADCTTGCLKGLANV KCSDLLKKWLPDRCASFADKIQSEVDNIKGLAGDR (full-length Metridia pacifica 1v3 luciferase with KCSD substitution at C₉); [SEQ ID NO: 286] MDIKVLFALICIALVQANPTENNDHINIVGIEGKFGITDLETDLFTIWETNRM ISTDNEQANTDSNRGKMPGKKLPLAVLIEMEANAFKAGCTRGCLICLSKIKCTAKMKKYIPGR CHDYGGDKKTGQAGIVGAIVDIPDISGFKEMGPMEQFIAQVDRCTDCTTGCLKGLANVKCSD LLKKWLPDRCASFADKIQSEVHNIKGLAGDR (full-length Metridia longa 39 luciferase with KCSD substitution at C₉); [SEQ ID NO: 288] MDIKFIFALVCIALVQANPTVNNDVNRGKMPGKKLPLEVLIEMEANAFKA GCTRGCLICLSKIKCTAKMKQYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMEPMEQFI AQVDLCADCTTGCLKGLANVKCSDLLKKWLPDRCASFADKIQKEAHNIKGLAGDR (full-length Metridia longa 7 luciferase with KCSD substitution at C₉); [SEQ ID NO: 290] MKTDIADTDRASNFVATETDANRGKMPGKKLPLAVIMEMEANAFKAGCT RGCLICLSKIKCTAKMKVYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQ VDRCASCTTGCLKGLANVKCSDLLKKWLPDRCASFADKIQKEVHNIKGMAGDR (full-length Metridia longa GS luciferase with KCSD substitution at C₉); [SEQ ID NO: 292] MDIKVVFTLVFSALVQAQKTDIADTDRASNFVATETDANRGKMPGKKLPL AVIMEMEANAFKAGCTRGCLICLSKIKCTAKMKVYIPGRCHDYGGDKKTGQAGIVGAIVDIP EISGFKEMAPMEQFIAQVDRCASCTTGCLKGLANVKCSDLLKKWLPDRCASFADKIQKEVHN IKGMAGDR (full-length Metridia longa 164M3 luciferase with KCSD substitution at C₉); [SEQ ID NO: 294] MDIKVVFTLVFSALVQAKSTEFDPNIDIVGLEGKFGITNLETDLFTIWETME VMIKADIADTDRASNFVATETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIK CTAKMKVYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDRCASCTTG CLKGLANVKCSDLLKKWLPDRCASFADKIQKEVHNIKGMAGDR (full- length Metridia longa 164v1 luciferase with KCSD substitution at C₉); [SEQ ID NO: 296] MDIKVVFTLVFSALVQAKSTEFDPNIDIVGLEGKFGITNLETDLFTIWETME VMIKADIADTDRASNFVATETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIK CTAKMKVYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVERCASCTTGC LKGLANVKCSDLLKKWLPDRCASFADKIQKEVHNIKGMAGDR (full-length Metridia longa 164v2 luciferase with KCSD substitution at C₉); [SEQ ID NO: 298] MDMKVIFALIFSALVQAKSTEFDPNIDIVGLEGKFGITNLETDLFTIWETME VIKSDIADTDRVSNFVATETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCT AKMKVYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDRCTSCTTGCL KGLANVKCSDLLKKWLPDRCASFADKIQKEVHNIKGMAGDR (full-length Metridia longa 16 luciferase with KCSD substitution at C₉); [SEQ ID NO: 300] MDIKVVFALVFSALVQAKSTEFDPNIDIVGLEGKFGITNLETDLFTIWETME VIKTDIADTDRARSFVATETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCT AKMKVYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMEPMEQFIAQVDRCASCTTGCL KGLANVKCSDLLKKWLPDRCASFADKIQKEVHNIKGMAGDR (full-length Metridia longa 45 luciferase with KCSD substitution at C₉); [SEQ ID NO: 302] MDIKVVFALVFSALVQAKSTEFDPNIDVVGLEGKFGITNLETDLFTIWETM EVIKTDIADTDRARNFVATETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIK CTAKMKVYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMEPMEQFIAQVDRCASCNTG CLKGLANVKCSDLLKKWLPDRCASFADKIQKEVHNIKGMAGDR (full- length Metridia longa 52 luciferase with KCSD substitution at C₉); [SEQ ID NO: 304] MDMRVIFALVFSSLVQAKSTEFDPNINIVGLEGKFGITNLETDLFTIWETMD VIKSDITDTDRVSNFVATETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCT AKMKVYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDLCATCTTGCL KGLANVKCSDLLKKWLPGRCASFADKIQKEVHNIKGMAGDR (full-length Metridia longa AL luciferase with KCSD substitution at C₉); [SEQ ID NO: 306] MGVKVLFALICIAVAEAKPTENNEDFNIVAVASNFATTDLDADRGKLPGK KLPLEVLKEMEANARKAGCTRGCLICLSHIKCTPKMKKFIPGRCADYEGDKESAQGGIGEAIV DIPEIPGFKDLEPMEQFIAQVDRCADCTTGCLKGLANVQCSDLLKKWLPQRCATFASKIQGQV DKIKGAGGD (full-length sequence of Gaussia princeps Prolume luciferase with RCAD substitution at C₅ and at C₆); [SEQ ID NO: 308] MGVKVLFALICIAVAEAKPTENNEDFNIVAVASNFATTDLDADRGKLPGK KLPLEVLKEMEANARKAGCTRGCLICLSHIKCTPKMKKFIPGRCADYEGDKESAQGGIGEAIV DIPEIPGFKDLEPMEQFIAQVDRCADCTTGCLKGLANVQCSDLLKKWLPQRCATFASKIQGQV DKIKGAGGDKDEL (full-length sequence of Gaussia princeps Prolume KDEL luciferase with RCAD substitution at C₅ and at C₆); [SEQ ID NO: 310] MGVKVLFALICIAVAEAKPTENNEDFNIVAVASNFATTDLDADRGKLPGK KLPLEVLKEIEANARKAGCTRGCLICLSHIKCTPKMKKFIPGRCADYEGDKESAQGGIGEAIV DIPEIPGFKDLEPMEQFIAQVDRCADCTTGCLKGLANVQCSDLLKKWLPQRCATFASKIQGQV DKIKGAGGD (full-length sequence of Gaussia princeps Mutant 1 luciferase with RCAD substitution at C₅ and at C₆); [SEQ ID NO: 312] MGVKVLFALICIAVAEAKPTENNEDFNIVAVASNFATTDLDADRGKLPGK KLPLEVLKELEANARKAGCTRGCLICLSHIKCTPKMKKFIPGRCADYEGDKESAQGGIGEAIV DIPEIPGFKDLEPLEQFIAQVDRCADCTTGCLKGLANVQCSDLLKKWLPQRCATFASKIQGQV DKIKGAGGD (full-length sequence of Gaussia princeps Mutant 2 luciferase with RCAD substitution at C₅); [SEQ ID NO: 314] MEAKPTENNEDFNIVAVASNFATTDLDADRGKLPGKKLPLEVLKEMEANA RKAGCTRGCLICLSHIKCTPKMKKFIPGRCADYEGDKESAQGGIGEAIVDIPEIPGFKDLEPME QFIAQVDRCADCTTGCLKGLANVQCSDLLKKWLPQRCATFASKIQGQVDKIKGAGGD (full-length sequence of Gaussia princeps GS luciferase with  RCAD substitution at C₅ and at C₆); [SEQ ID NO: 316] MGVKLIFAVLCVAAAQAATINENFEDIDVVAIGGSFALDVDANRGGHGGH PGKKMPKEVLVEMEANAKRAGCHRGCLICLSHIKCTKKMKKFIPGRCADYEGDKDSAQGGI GEEIVDMPEIPGFKDKEPMDQFIAQVDRCADCTTGCLKGLANVHCSALLKKWLPSRCKTFAS KIQSQVDTIKGLAGDR (full-length Metridia pacifica 2a luciferase with RCAD substitution at C₅ and at C₆); [SEQ ID NO: 318] MGVKLIFAVVCVAAAQAATINENFEDIDLVAIGGSFALDVDANRGGHGGH PGKKMPKEVLVEMEANAKRAGCHRGCLICLSHIKCTKKMKKFIPGRCADYEGDKDSAQGGI GEEIVDMPEIPGFKDKEPMDQFIAQVDRCADCTTGCLKGLANVHCSDLLKK WLPSRCKTFAS KIQSQVDTIKGLAGDR (full-length Metridia pacifica 2bv1 luciferase with RCAD substitution at C₅ and at C₆); [SEQ ID NO: 320] MGVKLIFAVVCVAAAQAATINENFEDIDLVAIGGSFALDVDANRGGHGGH PGKKMPKEVPVEMEANAKRAGCHRGCLICLSHIKCTKKMKKFIPGRCADYEGDKDSAQGGI GEEIVDMPEIPGFKDKEPMDQFIAQVDRCADCTTGCLKGLANVHCSDLLKKWLPSRCKTFAS KIQSQVDTIKGLAGDR (full-length Metridia pacifica 2bv2 luciferase with RCAD substitution at C₅ and at C₆); [SEQ ID NO: 322] MGVKLIFAVVCVAVAQAATIQENFEDIDLVAIGGSFASDVDANRGGHGGH PGKKMPKEVLMEMEANAKRAGCHRGCLVCLSHIKCTAQMQKFIPGRCADYAGDKDSAQGG IAGGAIVDIPEIAGFKEMKPMEQFIAQVDRCADCTTGCLKGLANVHCSDLLKKWLPSRCKTF ASKIQSQVDTIKGLAGDR (full-length Metridia longa 22 luciferase with RCAD substitution at C₅ and at C₆); [SEQ ID NO: 324] MMEIQVLFALICFALVQANPTENKDDIDIVGVEGKFGTTDLETDLFTIVED MNVISRDTNLANSDADRGKMPGKKLPLEVLIEMEANARKAGCTRGCLICLSKIKCTAKMKV YIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKELGPMEQFIAQVDRCADCTTGCLKGLANV KCSALLKKWLPDRCASFADKIQSEVDNIKGLAGDR (full-length Metridia pacifica 1v1 luciferase with RCAD substitution at C₅ and at C₆); [SEQ ID NO: 326] MMEIKVLFALICFALVQANPTENKDDIDIVGVEGKFGTTDLETDLFTIVED MNVISRDTNLANSDADRGKMPGKKLPLEVLIEMEANARKAGCTRGCLI CLSKIKCTAKMKV YIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKELGPMEQFIAQVDRCADCTTGCLKGLANV KCSALLKKWLPDRCASFADKIQSEVDNIKGLAGDR (full-length Metridia pacifica 1v2 luciferase with RCAD substitution at C₅ and at C₆); [SEQ ID NO: 328] MMEVKVVFALICFALVQANPTENKDDIDIVGVEGKFGTTDLETDLFTIVED MNVISRDTNLANSDADRGKMPGKKLPLEVLIEMEANARKAGCTRGCLICLSKIKCTAKMKV YIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKELGPMEQFIAQVDRCADCTTGCLKGLANV KCSALLKKWLPDRCASFADKIQSEVDNIKGLAGDR (full-length Metridia pacifica 1v3 luciferase with RCAD substitution at C₅ and at C₆); [SEQ ID NO: 330] MDIKVLFALICIALVQANPTENNDHINIVGIEGKFGITDLETDLFTIWETNRM ISTDNEQANTDSNRGKMPGKKLPLAVLIEMEANAFKAGCTRGCLICLSKIKCTAKMKKYLPGR CADYGGDKKTGQAGIVGAIVDIPDISGFKEMGPMEQFIAQVDRCADCTTGCLKGLANVKCSE LLKKWLPDRCASFADKIQSEVHNIKGLAGDR (full-length Metridia longa 39 luciferase with RCAD substitution at C₅ and at C₆); [SEQ ID NO: 332] MDIKFIFALVCIALVQANPTVNNDVNRGKMPGKKLPLEVLIEMEANAFKA GCTRGCLICLSKIKCTAKMKQYIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKEMEPMEQFI AQVDRCADCTTGCLKGLANVKCSELLKKWLPDRCASFADKIQKEAHNIKGLAGDR (full-length Metridia longa 7 luciferase with RCAD substitution  at C₅ and at C₆); [SEQ ID NO: 334] MKTDIADTDRASNFVATETDANRGKMPGKKLPLAVIMEMEANAFKAGCT RGCLICLSKIKCTAKMKVYIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQ VDRCADCTTGCLKGLANVKCSELLKKWLPDRCASFADKIQKEVHNIKGMAGDR (full-length Metridia longa GS luciferase with RCAD substitution  at C₅ and at C₆); [SEQ ID NO: 336] MDIKVVFTLVFSALVQAQKTDIADTDRASNFVATETDANRGKMPGKKLPL AVIMEMEANAFKAGCTRGCLICLSKIKCTAKMKVYIPGRCADYGGDKKTGQAGIVGAIVDIP EISGFKEMAPMEQFIAQVDRCADCTTGCLKGLANVKCSELLKKWLPDRCASFADKIQKEVHN IKGMAGDR (full-length Metridia longa 164M3 luciferase with RCAD substitution at C₅ and at C₆); [SEQ ID NO: 338] MDIKVVFTLVFSALVQAKSTEFDPNIDIVGLEGKFGITNLETDLFTIWETME VMIKADIADTDRASNFVATETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIK CTAKMKVYIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDRCADCTTG CLKGLANVKCSELLKKWLPDRCASFADKIQKEVHNIKGMAGDR (full- length Metridia longa 164v1 luciferase with RCAD substitution  at C₅ and at C₆); [SEQ ID NO: 340] MDIKVVFTLVFSALVQAKSTEFDPNIDIVGLEGKFGITNLETDLFTIWETME VMIKADIADTDRASNFVATETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIK CTAKMKVYIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVERCADCTTG CLKGLANVKCSELLKKWLPDRCASFADKIQKEVHNIKGMAGDR (full- length Metridia longa 164v2 luciferase with RCAD substitution at  C₅ and at C₆); [SEQ ID NO: 342] MDMKVIFALIFSALVQAKSTEFDPNIDIVGLEGKFGITNLETDLFTIWETME VIKSDIADTDRVSNFVATETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCT AKMKVYIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDRCADCTTGCL KGLANVKCSELLKKWLPDRCASFADKIQKEVHNIKGMAGDR (full-length Metridia longa 16 luciferase with RCAD substitution at C₅ and at C₆); [SEQ ID NO: 344] MDIKVVFALVFSALVQAKSTEFDPNIDIVGLEGKFGITNLETDLFTIWETME VIKTDIADTDRARSFVATETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCT AKMKVYIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKEMEPMEQFIAQVDRCADCTTGCL KGLANVKCSELLKKWLPDRCASFADKIQKEVHNIKGMAGDR (full-length Metridia longa 45 luciferase with RCAD substitution at C₅ and at C₆); [SEQ ID NO: 346] MDIKVVFALVFSALVQAKSTEFDPNIDVVGLEGKFGITNLETDLFTIWETM EVIKTDIADTDRARNFVATETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIK CTAKMKVYIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKEMEPMEQFIAQVDRCADCNTG CLKGLANVKCSELLKKWLPDRCASFADKIQKEVHNIKGMAGDR (full-length Metridia longa 52 luciferase with RCAD substitution  at C₅ and at C₆); [SEQ ID NO: 348] MDMRVIFALVFSSLVQAKSTEFDPNINIVGLEGKFGITNLETDLFTIWETMD VIKSDITDTDRVSNFVATETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCT AKMKVYIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDRCADCTTGCL KGLANVKCSELLKKWLPGRCASFADKIQKEVHNIKGMAGDR (full-length Metridia longa AL luciferase with RCAD substitution at C₅ and at C₆); [SEQ ID NO: 350] MGVKVLFALICIAVAEAKPTENNEDFNIVAVASNFATTDLDADRGKLPGK KLPLEVLKEMEANARKAGCTRGCLICLSHIKCTPKMKKFIPGRCADYEGDKESAQGG IGEAIV DIPEIPGFKDLEPMEQFIAQVDLCVDCTTGCLKGLANVKCSDLLKKWLPQRCATFASKIQGQV DKIKGAGGD (full-length sequence of Gaussia princeps Prolume luciferase with RCAD substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 352] MGVKVLFALICIAVAEAKPTENNEDFNIVAVASNFATTDLDADRGKLPGK KLPLEVLKEMEANARKAGCTRGCLICLSHIKCTPKMKKFIPGRCADYEGDKESAQGGIGEAIV DIPEIPGFKDLEPMEQFIAQVDLCVDCTTGCLKGLANVKCSDLLKKWLPQRCATFASKIQGQV DKIKGAGGDKDEL (full-length sequence of Gaussia princeps Prolume KDEL luciferase with RCAD substitution at C₅ and with KCSD  substitution at C₉); [SEQ ID NO: 354] MGVKVLFALICIAVAEAKPTENNEDFNIVAVASNFATTDLDADRGKLPGK KLPLEVLKEIEANARKAGCTRGCLICLSHIKCTPKMKKFIPGRCADYEGDKESAQGGIGEAIV DIPEIPGFKDLEPMEQFIAQVDLCVDCTTGCLKGLANVKCSDLLKKWLPQRCATFASKIQGQV DKIKGAGGD (full-length sequence of Gaussia princeps Mutant 1 luciferase  with RCAD substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 356] MGVKVLFALICIAVAEAKPTENNEDFNIVAVASNFATTDLDADRGKLPGK KLPLEVLKELEANARKAGCTRGCLICLSHIKCTPKMKKFIPGRCADYEGDKESAQGG IGEAIV DIPEIPGFKDLEPLEQFIAQVDLCVDCTTGCLKGLANVKCSDLLKKWLPQRCATFASKIQGQV DKIKGAGGD (full-length sequence of Gaussia princeps Mutant 2 luciferase  with RCAD substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 358] MEAKPTENNEDFNIVAVASNFATTDLDADRGKLPGKKLPLEVLKEMEANA RKAGCTRGCLICLSHIKCTPKMKKFIPGRCADYEGDKESAQGGIGEAIVDIPEIPGFKDLEPME QFIAQVDLCVDCTTGCLKGLANVKCSDLLKKWLPQRCATFASKIQGQVDKIKGAGGD (full-length sequence of Gaussia princeps GS luciferase with  RCAD substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 360] MGVKLIFAVLCVAAAQAATINENFEDIDVVAIGGSFALDVDANRGGHGGH PGKKMPKEVLVEMEANAKRAGCHRGCLICLSHIKCTKKMKKFIPGRCADYEGDKDSAQGGI GEEIVDMPEIPGFKDKEPMDQFIAQVDLCVDCTTGCLKGLANVKCSDLLKKWLPSRCKTFAS KIQSQVDTIKGLAGDR (full-length Metridia pacifica 2a luciferase with RCAD substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 362] MGVKLIFAVVCVAAAQAATINENFEDIDLVAIGGSFALDVDANRGGHGGH PGKKMPKEVLVEMEANAKRAGCHRGCLICLSHIKCTKKMKKFIPGRCADYEGDKDSAQGGI GEEIVDMPEIPGFKDKEPMDQFIAQVDLCVDCTTGCLKGLANVKCSDLLKKWLPSRCKTFAS KIQSQVDTIKGLAGDR (full-length Metridia pacifica 2bv1 luciferase with RCAD substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 364] MGVKLIFAVVCVAAAQAATINENFEDIDLVAIGGSFALDVDANRGGHGGH PGKKMPKEVPVEMEANAKRAGCHRGCLICLSHIKCTKKMKKFIPGRCADYEGDKDSAQGGI GEEIVDMPEIPGFKDKEPMDQFIAQVDLCVDCTTGCLKGLANVKCSDLLKKWLPSRCKTFAS KIQSQVDTIKGLAGDR (full-length Metridia pacifica 2bv2 luciferase with RCAD substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 366] MGVKLIFAVVCVAVAQAATIQENFEDIDLVAIGGSFASDVDANRGGHGGH PGKKMPKEVLMEMEANAKRAGCHRGCLVCLSHIKCTAQMQKFIPGRCADYAGDKDSAQGG IAGGAIVDIPEIAGFKEMKPMEQFIAQVDLCEDCTTGCLKGLANVKCSDLLKKWLPSRCKTFA SKIQSQVDTIKGLAGDR (full-length Metridia longa 22 luciferase with RCAD substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 368] MMEIQVLFALICFALVQANPTENKDDIDIVGVEGKFGTTDLETDLFTIVED MNVISRDTNLANSDADRGKMPGKKLPLEVLIEMEANARKAGCTRGCLICLSKIKCTAKMKV YIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKELGPMEQFIAQVDLCADCTTGCLKGLANV KCSDLLKKWLPDRCASFADKIQSEVDNIKGLAGDR (full-length Metridia pacifica 1v1 luciferase with RCAD  substitution atC₅ and with KCSD substitution at C₉); [SEQ ID NO: 370] MMEIKVLFALICFALVQANPTENKDDIDIVGVEGKFGTTDLETDLFTIVED MNVISRDTNLANSDADRGKMPGKKLPLEVLIEMEANARKAGCTRGCLICLSKIKCTAKMKV YIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKELGPMEQFIAQVDLCADCTTGCLKGLANV KCSDLLKKWLPDRCASFADKIQSEVDNIKGLAGDR (full-length Metridia pacifica 1v2 luciferase with RCAD  substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 372] MMEVKVVFALICFALVQANPTENKDDIDIVGVEGKFGTTDLETDLFTIVED MNVISRDTNLANSDADRGKMPGKKLPLEVLIEMEANARKAGCTRGCLICLSKIKCTAKMKV YIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKELGPMEQFIAQVDLCADCTTGCLKGLANV KCSDLLKKWLPDRCASFADKIQSEVDNIKGLAGDR (full-length Metridia pacifica 1v3 luciferase with RCAD  substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 374] MDIKVLFALICIALVQANPTENNDHINIVGIEGKFGITDLETDLFTIWETNRM ISTDNEQANTDSNRGKMPGKKLPLAVLIEMEANAFKAGCTRGCLICLSKIKCTAKMKKYIPGR CADYGGDKKTGQAGIVGAIVDIPDISGFKEMGPMEQFIAQVDRCTDCTTGCLKGLANVKCSD LLKKWLPDRCASFADKIQSEVHNIKGLAGDR (full-length Metridia longa 39 luciferase with RCAD  substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 376] MDIKFIFALVCIALVQANPTVNNDVNRGKMPGKKLPLEVLIEMEANAFKA GCTRGCLICLSKIKCTAKMKQYIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKEMEPMEQFI AQVDLCADCTTGCLKGLANVKCSDLLKKWLPDRCASFADKIQKEAHNIKGLAGDR (full-length Metridia longa 7 luciferase with RCAD substitution  at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 378] MKTDIADTDRASNFVATETDANRGKMPGKKLPLAVIMEMEANAFKAGCT RGCLICLSKIKCTAKMKVYIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQ VDRCASCTTGCLKGLANVKCSDLLKKWLPDRCASFADKIQKEVHNIKGMAGDR (full-length Metridia longa GS luciferase with RCAD substitution  at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 380] MDIKVVFTLVFSALVQAQKTDIADTDRASNFVATETDANRGKMPGKKLPL AVIMEMEANAFKAGCTRGCLICLSKIKCTAKMKVYIPGRCADYGGDKKTGQAGIVGAIVDIP EISGFKEMAPMEQFIAQVDRCASCTTGCLKGLANVKCSDLLKKWLPDRCASFADKIQKEVHN IKGMAGDR (full-length Metridia longa 164M3 luciferase with RCAD substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 382] MDIKVVFTLVFSALVQAKSTEFDPNIDIVGLEGKFGITNLETDLFTIWETME VMIKADIADTDRASNFVATETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIK CTAKMKVYIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDRCASCTTG CLKGLANVKCSDLLKKWLPDRCASFADKIQKEVHNIKGMAGDR (full- length Metridia longa 164v1 luciferase with RCAD substitution  at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 384] MDIKVVFTLVFSALVQAKSTEFDPNIDIVGLEGKFGITNLETDLFTIWETME VMIKADIADTDRASNFVATETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIK CTAKMKVYIPGRCADYGGDKKTGQAGIVGAIVDEPEISGFKEMAPMEQFIAQVERCASCTTG CLKGLANVKCSDLLKKWLPDRCASFADKIQKEVHNIKGMAGDR (full- length Metridia longa 164v2 luciferase with RCAD substitution  at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 386] MDMKVIFALIFSALVQAKSTEFDPNIDIVGLEGKFGITNLETDLFTIWETME VIKSDIADTDRVSNFVATETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCT AKMKVYIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDRCTSCTTGCL KGLANVKCSDLLKKWLPDRCASFADKIQKEVHNIKGMAGDR (full-length Metridia longa 16 luciferase with RCAD  substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 388] MDIKVVFALVFSALVQAKSTEFDPNIDIVGLEGKFGITNLETDLFTIWETME VIKTDIADTDRARSFVATETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCT AKMKVYIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKEMEPMEQFIAQVDRCASCTTGCL KGLANVKCSDLLKKWLPDRCASFADKIQKEVHNIKGMAGDR (full-length Metridia longa 45 luciferase with RCAD substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 390] MDIKVVFALVFSALVQAKSTEFDPNIDVVGLEGKFGITNLETDLFTIWETM EVIKTDIADTDRARNFVATETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIK CTAKMKVYIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKEMEPMEQFIAQVDRCASCNTG CLKGLANVKCSDLLKKWLPDRCASFADKIQKEVHNIKGMAGDR (full-length Metridia longa 52 luciferase with RCAD substitution at C₅ and with KCSD substitution at C₉); and [SEQ ID NO: 392] MDMRVIFALVFSSLVQAKSTEFDPNINIVGLEGKFGITNLETDLFTIWETMD VIKSDITDTDRVSNFVATETDANRGKMPGICKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCT AKMKVYIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDLCATCTTGCL KGLANVKCSDLLKKWLPGRCASFADKIQKEVHNIKGMAGDR (full-length Metridia longa AL luciferase with RCAD substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 394] MGVKVLFALICIAVAEAKPTENNEDFNIVAVASNFATTDLDADRGKLPGK KLPLEVLKEMEANARKAGCTRGCLICLSHIKCTPKMKKFIPGRCHTYEGDKESAQGGIGEAIV DIPEIPGFKDLEPMEQFIAQVDRCADCTTGCLKGLANVKCSDLLICKWLPQRCATFASKIQGQ VDKIKGAGGD (full-length sequence of Gaussia princeps Prolume luciferase with RCAD substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 396] MGVKVLFALICIAVAEAKPTENNEDFNIVAVASNFATTDLDADRGKLPGK KLPLEVLKEMEANARKAGCTRGCLICLSHIKCTPKMKKFIPGRCHTYEGDKESAQGGIGEAIV DIPEIPGFKDLEPMEQFIAQVDRCADCTTGCLKGLANVKCSDLLKKWLPQRCATFASKIQGQ VDKIKGAGGDKDEL (full-length sequence of Gaussia princeps Prolume KDEL luciferase with RCAD substitution at C₆ and with KCSD  substitution at C₉); [SEQ ID NO: 398] MGVKVLFALICIAVAEAKPTENNEDFNIVAVASNFATTDLDADRGKLPGK KLPLEVLKEIEANARKAGCTRGCLICLSHIKCTPKMKKFIPGRCHTYEGDKESAQGGIGEAIVD IPEIPGFKDLEPMEQFIAQVDRCADCTTGCLKGLANVKCSDLLKKWLPQRCATFASKIQGQV DKIKGAGGD (full-length sequence of Gaussia princeps Mutant 1 luciferase with RCAD substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 400] MGVKVLFALICIAVAEAKPTENNEDFNIVAVASNFATTDLDADRGKLPGK KLPLEVLKELEANARKAGCTRGCLICLSHIKCTPKMICKFIPGRCHTYEGDKESAQGGIGEAIV DIPEIPGFKDLEPLEQFIAQVDRCADCTTGCLKGLANVKCSDLLKKWLPQRCATFASKIQGQV DKIKGAGGD (full-length sequence of Gaussia princeps Mutant 2 luciferase with RCAD substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 402] MEAKPTENNEDFNIVAVASNFATTDLDADRGKLPGKKLPLEVLKEMEANA RKAGCTRGCLICLSHIKCTPKMKKFIPGRCHTYEGDKESAQGGIGEAIVDIPEIPGFKDLEPME QFIAQVDRCADCTTGCLKGLANVKCSDLLKKWLPQRCATFASKIQGQVDKIKGAGGD (full-length sequence of Gaussia princeps GS luciferase with RCAD  substitution at C₆ and with KCSD substitution at C₉) [SEQ ID NO: 404] MGVKLIFAVLCVAAAQAATINENFEDIDVVAIGGSFALDVDANRGGHGGH PGKKMPKEVLVEMEANAKRAGCHRGCLICLSHIKCTKKMKKFIPGRCHSYEGDKDSAQGGIG EEIVDMPEIPGFKDKEPMDQFIAQVDRCADCTTGCLKGLANVKCSDLLKKWLPSRCKTFASK IQSQVDTIKGLAGDR (full-length Metridia pacifica 2a luciferase with RCAD substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 406] MGVKLIFAVVCVAAAQAATINENFEDIDLVAIGGSFALDVDANRGGHGGH PGKKMPKEVLVEMEANAKRAGCHRGCLICLSHIKCTKKMKKFIPGRCHSYEGDKDSAQGGIG EEIVDMPEIPGFKDKEPMDQFIAQVDRCADCTTGCLKGLANVKCSDLLKKMLPSRCKTFASK IQSQVDTIKGLAGDR (full-length Metridia pacifica 2bv1 luciferase with RCAD substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 408] MGVKLIFAVVCVAAAQAATINENFEDIDLVAIGGSFALDVDANRGGHGGH PGKKMPKEVPVEMEANAKRAGCHRGCLICLSHIKCTKKMKKFIPGRCHSYEGDKDSAQGGIG EEIVDMPEIPGFKDKEPMDQFIAQVDRCADCTTGCLKGLANVKCSDLLKKWLPSRCKTFASK IQSQVDTIKGLAGDR (full-length Metridia pacifica 2bv2 luciferase with RCAD substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 410] MGVKLIFAVVCVAVAQAATIQENFEDIDLVAIGGSFASDVDANRGGHGGH PGKKMPKEVLMEMEANAKRAGCHRGCLVCLSHIKCTAQMQKFIPGRCHSYAGDKDSAQGGI AGGAIVDIPEIAGFKEMKPMEQFIAQVDRCADCTTGCLKGLANVKCSDLLKKWLPSRCKTFA SKIQSQVDTIKGLAGDR (full-length Metridia longa 22 luciferase with RCAD substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 412] MMEIQVLFALICFALVQANPTENKDDIDIVGVEGKFGTTDLETDLFTIVED MNVISRDTNLANSDADRGKMPGKKLPLEVLIEMEANARKAGCTRGCLICLSKIKCTAKMKV YIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKELGPMEQFIAQVDRCADCTTGCLKGLANV KCSDLLKKWLPDRCASFADKIQSEVDNIKGLAGDR (full-length Metridia pacifica 1v1 luciferase with RCAD substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 414] MMEIKVLFALICFALVQANPTENKDDIDIVGVEGKFGTTDLETDLFTIVED MNVISRDTNLANSDADRGKMPGKKLPLEVLIEMEANARICAGCTRGCLICLSKIKCTAKMKV YIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKELGPMEQFIAQVDRCADCTTGCLKGLANV KCSDLLKKWLPDRCASFADKIQSEVDNIKGLAGDR (full-length Metridia pacifica 1v2 luciferase with RCAD  substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 416] MMEVKVVFALICFALVQANPTENKDDIDIVGVEGKFGTTDLETDLFTIVED MNVISRDTNLANSDADRGKMPGICKLPLEVLIEMEANARKAGCTRGCLICLSKIKCTAKMKV YIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKELGPMEQFIAQVDRCADCTTGCLKGLANV KCSDLLKKWLPDRCASFADKIQSEVDNIKGLAGDR (full-length Metridia pacifica 1v3 luciferase with RCAD substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 418] MDIKVLFALICIALVQANPTENNDHINIVGIEGKFGITDLETDLFTIWETNRM ISTDNEQANTDSNRGKMPGKKLPLAVLIEMEANAFKAGCTRGCLICLSKIKCTAKMKKYIPGR CHDYGGDKKTGQAGIVGAIVDIPDISGFKEMGPMEQFIAQVDRCADCTTGCLKGLANVKCS DLLKKWLPDRCASFADKIQSEVHNIKGLAGDR (full-length Metridia longa 39 luciferase with RCAD  substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 420] MDIKFIFALVCIALVQANPTVNNDVNRGKMPGKKLPLEVLIEMEANAFKA GCTRGCLICLSKIKCTAKMKQYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMEPMEQFI AQVDRCADCTTGCLKGLANVKCSDLLKKWLPDRCASFADKIQKEAHNIKGLAGDR (full-length Metridia longa 7 luciferase with RCAD substitution  at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 422] MKTDIADTDRASNFVATETDANRGKMPGKKLPLAVIMEMEANAFKAGCT RGCLICLSKIKCTAKMKVYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQ VDRCADCTTGCLKGLANVKCSDLLKKWLPDRCASFADKIQKEVHNIKGMAGDR (full-length Metridia longa GS luciferase with RCAD substitution  at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 424] MDIKVVFTLVFSALVQAQKTDIADTDRASNFVATETDANRGKMPGKKLPL AVIMEMEANAFKAGCTRGCLICLSKIKCTAKMKVYIPGRCHDYGGDKKTGQAGIVGAIVDIP EISGFKEMAPMEQFIAQVDRCADCTTGCLKGLANVKCSDLLKKWLPDRCASFADKIQKEVH NIKGMAGDR (full-length Metridia longa 164M3 luciferase with RCAD substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 426] MDIKVVFTLVFSALVQAKSTEFDPNIDIVGLEGKFGITNLETDLFTIWETME VMIKADIADTDRASNFVATETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIK CTAKMKVYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDRCADCTTG CLKGLANVKCSDLLKKWLPDRCASFADKIQKEVHNIKGMAGDR (full-length Metridia longa 164v1 luciferase with RCAD substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 428] MDIKVVFTLVFSALVQAKSTEFDPNIDIVGLEGKFGITNLETDLFTIWETME VMIKADIADTDRASNFVATETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIK CTAKMKVYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVERCADCTTG CLKGLANVKCSDLLKKWLPDRCASFADKIQKEVHNIKGMAGDR (full-length Metridia longa 164v2 luciferase with RCAD  substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 430] MDMKVIFALIFSALVQAKSTEFDPNIDIVGLEGKFGITNLETDLFTIWETME VIKSDIADTDRVSNFVATETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCT AKMKVYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDRCADCTTGCL KGLANVKCSDLLKKWLPDRCASFADKIQKEVHNIKGMAGDR (full-length Metridia longa 16 luciferase with RCAD  substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 432] MDIKVVFALVFSALVQAKSTEFDPNIDIVGLEGKFGITNLETDLFTIWETME VIKTDIADTDRARSFVATETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCT AKMKVYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMEPMEQFIAQVDRCADCTTGCL KGLANVKCSDLLKKWLPDRCASFADKIQKEVHNIKGMAGDR (full-length Metridia longa 45 luciferase with RCAD  substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 434] MDIKVVFALVFSALVQAKSTEFDPNIDVVGLEGKFGITNLETDLFTIWETM EVIKTDIADTDRARNFVATETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIK CTAKMKVYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMEPMEQFIAQVDRCADCNTG CLKGLANVKCSDLLKKWLPDRCASFADKIQKEVHNIKGMAGDR (full-length Metridia longa 52 luciferase with RCAD  substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 436] MDMRVIFALVFSSLVQAKSTEFDPNINIVGLEGKFGITNLETDLFTIWETMD VIKSDITDTDRVSNFVATETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCT AKMKVYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDRCADCTTGCL KGLANVKCSDLLKKWLPGRCASFADKIQKEVHNIKGMAGDR (full-length Metridia longa AL luciferase with RCAD  substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 438] MGVKVLFALICIAVAEAKPTENNEDFNIVAVASNFATTDLDADRGKLPGK KLPLEVLKEMEANARKAGCTRGCLICLSHIKCTPKMKKFIPGRCADYEGDKESAQGGIGEAIV DIPEIPGFKDLEPMEQFIAQVDRCADCTTGCLKGLANVKCSDLLKKWLPQRCATFASKIQGQ VDKIKGAGGD (full-length sequence of Gaussia princeps Prolume luciferase with RCAD substitution at C₅ and at C₆ and with KCSD substitution  at C₉); [SEQ ID NO: 440] MGVKVLFALICIAVAEAKPTENNEDFNIVAVASNFATTDLDADRGKLPGK KLPLEVLKEMEANARKAGCTRGCLICLSHIKCTPKMKKFIPGRCADYEGDKESAQGGIGEAIV DIPEIPGFKDLEPMEQFIAQVDRCADCTTGCLKGLANVKCSDLLKKWLPQRCATFASKIQGQ VDKIKGAGGDKDEL (full-length sequence of Gaussia princeps Prolume KDEL luciferase with RCAD substitution at C₅ and at C₆ and with  KCSD substitution at C₉); [SEQ ID NO: 442] MGVKVLFALICIAVAEAKPTENNEDFNIVAVASNFATTDLDADRGKLPGK KLPLEVLKEIEANARKAGCTRGCLICLSHIKCTPKMKKFIPGRCADYEGDKESAQGGIGEAIV DIPEIPGFKDLEPMEQFIAQVDRCADCTTGCLKGLANVKCSDLLKKWLPQRCATFASKIQGQ VDKIKGAGGD (full-length sequence of Gaussia princeps Mutant 1 luciferase with RCAD substitution at C₅ and at C₆ and with KCSD substitution  at C₉); [SEQ ID NO: 444] MGVKVLFALICIAVAEAKPTENNEDFNIVAVASNFATTDLDADRGKLPGK KLPLEVLKELEANARKAGCTRGCLICLSHIKCTPKMKKFIPGRCADYEGDKESAQGGIGEAIV DIPEIPGFKDLEPLEQFIAQVDRCADCTTGCLKGLANVKCSDLLKKWLPQRCATFASKIQGQV DKIKGAGGD (full-length sequence of Gaussia princeps Mutant 2 luciferase with RCAD substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 446] MEAKPTENNEDFNIVAVASNFATTDLDADRGKLPGKKLPLEVLKEMEANA RKAGCTRGCLICLSHIKCTPKMKKFIPGRCADYEGDKESAQGGIGEAIVDIPEIPGFKDLEPME QFIAQVDRCADCTTGCLKGLANVKCSDLLKKWLPQRCATFASKIQGQVDKIKGAGGD (full-length sequence of Gaussia princeps GS luciferase with RCAD  substitution at C₅ and at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 448] MGVKLIFAVLCVAAAQAATINENFEDIDVVAIGGSFALDVDANRGGHGGH PGKKMPKEVLVEMEANAKRAGCHRGCLICLSHIKCTKKMKKFIPGRCADYEGDKDSAQGGI GEEIVDMPEIPGFKDKEPMDQFIAQVDRCADCTTGCLKGLANVKCSDLLKKWLPSRCKTFAS KIQSQVDTIKGLAGDR (full-length Metridia pacifica 2a luciferase with RCAD substitution at C₅ and at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 450] MGVKLIFAVVCVAAAQAATINENFEDIDLVAIGGSFALDVDANRGGHGGH PGKKMPKEVLVEMEANAKRAGCHRGCLICLSHIKCTKKMKKFIPGRCADYEGDKDSAQGGI GEEIVDMPEIPGFKDKEPMDQFIAQVDRCADCTTGCLKGLANVKCSDLLKKWLPSRCKTFAS KIQSQVDTIKGLAGDR (full-length Metridia pacifica 2bv1 luciferase with RCAD  substitution at C₅ and at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 452] MGVKLIFAVVCVAAAQAATINENFEDIDLVAIGGSFALDVDANRGGHGGH PGKKMPKEVPVEMEANAKRAGCHRGCLICLSHIKCTKKMKKFIPGRCADYEGDKDSAQGGI GEEIVDMPEIPGFKDKEPMDQFIAQVDRCADCTTGCLKGLANVKCSDLLKKWLPSRCKTFAS KIQSQVDTIKGLAGDR (full-length Metridia pacifica 2bv2 luciferase with RCAD  substitution at C₅ and at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 454] MGVKLIFAVVCVAVAQAATIQENFEDIDLVAIGGSFASDVDANRGGHGGH PGKKMPKEVLMEMEANAKRAGCHRGCLVCLSHIKCTAQMQKFIPGRCADYAGDKDSAQGG IAGGAIVDIPEIAGFKEMKPMEQFIAQVDRCADCTTGCLKGLANVKCSDLLKKWLPSRCKTF ASKIQSQVDTIKGLAGDR (full-length Metridia longa 22 luciferase with RCAD substitution at C₅ and at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 456] MMEIQVLFALICFALVQANPTENKDDIDIVGVEGKFGTTDLETDLFTIVED MNVISRDTNLANSDADRGKMPGKKLPLEVLIEMEANARKAGCTRGCLICLSKIKCTAKMKV YIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKELGPMEQFIAQVDRCADCTTGCLKGLANV KCSDLLKKWLPDRCASFADKIQSEVDNIKGLAGDR (full-length Metridia pacifica 1v1 luciferase with RCAD  substitution at C₅ and at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 458] MMEIKVLFALICFALVQANPTENKDDIDIVGVEGKFGTTDLETDLFTIVED MNVISRDTNLANSDADRGKMPGKKLPLEVLIEMEANARKAGCTRGCLICLSKIKCTAKMKV YIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKELGPMEQFIAQVDRCADCTTGCLKGLANV KCSDLLKKWLPDRCASFADKIQSEVDNIKGLAGDR (full-length Metridia pacifica 1v2 luciferase with RCAD  substitution at C₅ and at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 460] MMEVKVVFALICFALVQANPTENKDDIDIVGVEGKFGTTDLETDLFTIVED MNVISRDTNLANSDADRGKMPGKKLPLEVLIEMEANARKAGCTRGCLICLSKIKCTAKMKV YIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKELGPMEQFIAQVDRCADCTTGCLKGLANV KCSDLLKKWLPDRCASFADKIQSEVDNIKGLAGDR (full-length Metridia pacifica 1v3 luciferase with RCAD  substitution at C₅ and at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 462] MDIKVLFALICIALVQANPTENNDHINIVGIEGKFGITDLETDLFTIWETNRM ISTDNEQANTDSNRGKMPGKKLPLAVLIEMEANAFKAGCTRGCLICLSKIKCTAKMKKYIPGR CADYGGDKKTGQAGIVGAIVDIPDISGFKEMGPMEQFIAQVDRCADCTTGCLKGLANVKCS DLLKKWLPDRCASFADKIQSEVHNIKGLAGDR (full-length Metridia longa 39 luciferase with RCAD  substitution at C₅ and at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 464] MDIKFIFALVCIALVQANPTVNNDVNRGKMPGKKLPLEVLIEMEANAFKA GCTRGCLICLSKIKCTAKMKQYIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKEMEPMEQFI AQVDRCADCTTGCLKGLANVKCSDLLKKWLPDRCASFADKIQKEAHNIKGLAGDR (full-length Metridia longa 7 luciferase with RCAD substitution  at C₅ and at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 466] MKTDIADTDRASNFVATETDANRGKMPGKKLPLAVIMEMEANAFKAGCT RGCLICLSKIKCTAKMKVYIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQ VDRCADCTTGCLKGLANVKCSDLLKKWLPDRCASFADKIQKEVHNIKGMAGDR (full-length Metridia longa GS luciferase with RCAD substitution  at C₅ and at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 468] MDIKVVFTLVFSALVQAQKTDIADTDRASNFVATETDANRGKMPGKKLPL AVIMEMEANAFKAGCTRGCLICLSKIKCTAKMKVYIPGRCADYGGDKKTGQAGIVGAIVDIP EISGFKEMAPMEQFIAQVDRCADCTTGCLKGLANVKCSDLLKKWLPDRCASFADKIQKEVH NIKGMAGDR (full-length Metridia longa 164M3 luciferase with RCAD substitution at C₅ and at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 470] MDIKVVFTLVFSALVQAKSTEFDPNIDIVGLEGKFGITNLETDLFTIWETME VMIKADIADTDRASNFVATETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIK CTAKMKVYIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDRCADCTTG CLKGLANVKCSDLLKKWLPDRCASFADKIQKEVHNIKGMAGDR (full-length Metridia longa 164v1 luciferase with RCAD substitution at C₅ and at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 472] MDIKVVFTLVFSALVQAKSTEFDPNIDIVGLEGKFGITNLETDLFTIWETME VMIKADIADTDRASNFVATETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIK CTAKMKVYIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVERCADCTTG CLKGLANVKCSDLLKKWLPDRCASFADKIQKEVHNIKGMAGDR (full-length Metridia longa 164v2 luciferase with RCAD  substitution at C₅ and at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 474] MDMKVIFALIFSALVQAKSTEFDPNIDIVGLEGKFGITNLETDLFTIWETME VIKSDIADTDRVSNFVATETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCT AKMKVYIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDRCADCTTGCL KGLANVKCSDLLKKWLPDRCASFADKIQKEVHNIKGMAGDR (full-length Metridia longa 16 luciferase with RCAD  substitution at C₅ and at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 476] MDIKVVFALVFSALVQAKSTEFDPNIDIVGLEGKFGITNLETDLFTIWETME VIKTDIADTDRARSFVATETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCT AKMKVYIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKEMEPMEQFIAQVDRCADCTTGCL KGLANVKCSDLLKKWLPDRCASFADKIQKEVHNIKGMAGDR (full-length Metridia longa 45 luciferase with RCAD  substitution at C₅ and at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 478] MDIKVVFALVFSALVQAKSTEFDPNIDVVGLEGKFGITNLETDLFTIWETM EVIKTDIADTDRARNFVATETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIK CTAKMKVYIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKEMEPMEQFIAQVDRCADCNTG CLKGLANVKCSDLLKKWLPDRCASFADKIQKEVHNIKGMAGDR (full-length Metridia longa 52 luciferase with RCAD  substitution at C₅ and at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 480] MDMRVIFALVFSSLVQAKSTEFDPNINIVGLEGKFGITNLETDLFTIWETMD VIKSDITDTDRVSNFVATETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCT AKMKVYIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDRCADCTTGCL KGLANVKCSDLLKKWLPGRCASFADKIQKEVHNIKGMAGDR (full-length Metridia longa AL luciferase with RCAD  substitution at C₅ and at C₆ and with KCSD substitution at C₉); or

(b) an amino acid sequence that shares at least 70% (and at least 71% to at least 99% and all integer percentages in between) sequence similarity or sequence identity with the sequence set forth in any one of SEQ ID NO: 174, 176, 178, 180, 182, 184, 186, 188, 190, 192, 194, 196, 198, 200, 202, 204, 206, 208, 210, 212, 214, 216, 218, 220, 222, 224, 226, 228, 230, 232, 234, 236, 238, 240, 242, 244, 246, 248, 250, 252, 254, 256, 258, 260, 262, 264, 266, 268, 270, 272, 274, 276, 278, 280, 282, 284, 286, 288, 290, 292, 294, 296, 298, 300, 302, 304, 306, 308, 310 312, 314, 316, 318, 320 322, 324, 326, 328, 330, 332, 334, 336, 338, 340, 34, 344, 346, 348, 350, 352, 354, 356, 358, 360, 362, 364, 366, 368, 370, 372, 374, 376, 378, 380, 382, 384, 386, 388, 390, 392, 394, 396, 398, 400, 402, 404, 406, 408, 410, 412, 414, 416, 418, 420, 422, 424, 426, 428, 430, 432, 434, 436, 438, 440, 442, 444, 446, 448, 450, 452, 454, 456, 458, 460, 462, 464, 466, 468, 470, 472, 474, 476, 478 or 480, wherein the amino acid sequence comprises at least one subsequence corresponding to B₁C₅X₁₈X₁₉, X₃₇C₆X₃₈X₃₉ or X₄₁C₉ΣX₄₂ of formula X, wherein an individual subsequence consists of an amino acid sequence represented by formula XI as defined above; or

(c) an amino acid sequence which is encoded by the nucleotide sequence set forth in any one of:

[SEQ ID NO: 173] atgggngtnaargtnytnttygcnytnathtgyathgcngtngcngargcnaarccnacngaraayaaygargaytt yaayathgtngcngtngcnwsnaayttygcnacnacngayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargt nytnaargaratggargcnaaygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaaratg aaraarttyathccnggnmgntgygcngaytaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathccn garathccnggnttyaargayytngarccnatggarcarttyathgcncargtngayytntgygtngaytgyacnacnggntgyytnaarggny tngcnaaygtncartgywsngayytnytnaaraartggytnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaar athaarggngcnggnggngay (nucleotide sequence encoding full-length sequence of Gaussia princeps Prolume luciferase with RCAD substitution at C₅); [SEQ ID NO: 175] atgggngtnaargtnytnttygcnytnathtgyathgcngtngcngargcnaarccnacngaraayaaygargaytt yaayathgtngcngtngcnwsnaayttygcnacnacngayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargt nytnaargaratggargcnaaygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaaratg aaraarttyathccnggnmgntgygcngaytaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathccn garathccnggnttyaargayytngarccnatggarcarttyathgcncargtngayytntgygtngaytgyacnacnggntgyytnaarggny tngcnaaygtncartgywsngayytnytnaaraartggytnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaar athaarggngcnggnggngayaargaygarytn (nucleotide sequence encoding full-length sequence of Gaussia princeps Prolume KDEL luciferase with RCAD substitution at C₅); [SEQ ID NO: 177] atgggngtnaargtnytnttygcnytnathtgyathgcngtngcngargcnaarccnacngaraayaaygargaytt yaayathgtngcngtngcnwsnaayttygcnacnacngayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargt nytnaargarathgargcnaaygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaaratg aaraarttyathccnggnmgntgygcngaytaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathccn garathccnggnttyaargayytngarccnatggarcarttyathgcncargtngayytntgygtngaytgyacnacnggntgyytnaarggny tngcnaaygtncartgywsngayytnytnaaraartggytnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaar athaarggngcnggnggngay (nucleotide sequence encoding full-length sequence of Gaussia princeps Mutant 1 luciferase with RCAD substitution at C₅); [SEQ ID NO: 179] atgggngtnaargtnytnttygcnytnathtgyathgcngtngcngargcnaarccnacngaraayaaygargaytt yaayathgtngcngtngcnwsnaayttygcnacnacngayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargt nytnaargarytngargcnaaygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaarat gaaraarttyathccnggnmgntgygcngaytaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathcc ngarathccnggnttyaargayytngarccnytngarcarttyathgcncargtngayytntgygtngaytgyacnacnggntgyytnaarggn ytngcnaaygtncartgywsngayytnytnaaraartggytnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaa rathaarggngcnggnggngay (nucleotide sequence encoding full-length sequence of Gaussia princeps Mutant 2 luciferase with RCAD substitution at C₅); [SEQ ID NO: 181] atggargcnaarccnacngaraayaaygargayttyaayathgtngcngtngcnwsnaayttygcnacnacnga yytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargtnytnaargaratggargcnaaygcnmgnaargcnggntg yacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaaratgaaraarttyathccnggnmgntgygcngaytaygarggn gayaargarwsngcncarggnggnathggngargcnathgtngayathccngarathccnggnttyaargayytngarccnatggarcartty athgcncargtngayytntgygtngaytgyacnacnggntgyytnaarggnytngcnaaygtncartgywsngayytnytnaaraartggytn ccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaarathaarggngcnggnggngay (nucleotide sequence encoding full-length sequence of Gaussia princeps GS luciferase with RCAD substitution at C₅); [SEQ ID NO: 183] atgggngtnaarytnathttygcngtnytntgygtngcngcngcncargcngcnacnathaaygaraayttygarg ayathgaygtngtngcnathggnggnwsnttygcnytngaygtngaygcnaaymgnggnggncayggnggncayccnggnaaraarat gccnaargargtnytngtngaratggargcnaaygcnaarmgngcnggntgycaymgnggntgyytnathtgyytnwsncayathaartgy acnaaraaratgaaraarttyathccnggnmgntgygcngaytaygarggngayaargaywsngcncarggnggnathggngargarathg tngayatgccngarathccnggnttyaargayaargarccnatggaycarttyathgcncargtngayytntgygtngaytgyacnacnggntg yytnaarggnytngcnaaygtncaytgywsngcnytnytnaaraartggytnccnwsnmgntgyaaracnttygcnwsnaarathcarwsn cargtngayacnathaarggnytngcnggngaymgn (nucleotide sequence encoding full- length Metridia pacifica 2a luciferase with RCAD substitution at C₅); [SEQ ID NO: 185] atgggngtnaarytnathttygcngtngtntgygtngcngcngcncargcngcnacnathaaygaraayttygarg ayathgayytngtngcnathggnggnwsnttygcnytngaygtngaygcnaaymgnggnggncayggnggncayccnggnaaraarat gccnaargargtnytngtngaratggargcnaaygcnaarmgngcnggntgycaymgnggntgyytnathtgyytnwsncayathaartgy acnaaraaratgaaraarttyathccnggnmgntgygcngaytaygarggngayaargaywsngcncarggnggnathggngargarathg tngayatgccngarathccnggnttyaargayaargarccnatggaycarttyathgcncargtngayytntgygtngaytgyacnacnggntg yytnaarggnytngcnaaygtncaytgywsngayytnytnaaraartggytnccnwsnmgntgyaaracnttygcnwsnaarathcarwsn cargtngayacnathaarggnytngcnggngaymgn (nucleotide sequence encoding full- length Metridia pacifica 2bv1 luciferase with RCAD substitution at C₅); [SEQ ID NO: 187] atgggngtnaarytnathttygcngtngtntgygtngcngcngcncargcngcnacnathaaygaraayttygarg ayathgayytngtngcnathggnggnwsnttygcnytngaygtngaygcnaaymgnggnggncayggnggncayccnggnaaraarat gccnaargargtnccngtngaratggargcnaaygcnaarmgngcnggntgycaymgnggntgyytnathtgyytnwsncayathaartg yacnaaraaratgaaraarttyathccnggnmgntgygcngaytaygarggngayaargaywsngcncarggnggnathggngargarath gtngayatgccngarathccnggnttyaargayaargarccnatggaycarttyathgcncargtngayytntgygtngaytgyacnacnggnt gyytnaarggnytngcnaaygtncaytgywsngayytnytnaaraartggytnccnwsnmgntgyaaracnttygcnwsnaarathcarws ncargtngayacnathaarggnytngcnggngaymgn (nucleotide sequence encoding full- length Metridia pacifica 2bv2 luciferase with RCAD substitution at C₅); [SEQ ID NO: 189] atgggngtnaarytnathttygcngtngtntgygtngcngtngcncargcngcnacnathcargaraayttygarga yathgayytngtngcnathggnggnwsnttygcnwsngaygtngaygcnaaymgnggnggncayggnggncayccnggnaaraaratg ccnaargargtnytnatggaratggargcnaaygcnaarmgngcnggntgycaymgnggntgyytngtntgyytnwsncayathaartgya cngcncaratgcaraarttyathccnggnmgntgygcngaytaygcnggngayaargaywsngcncarggnggnathgcnggnggngcn athgtngayathccngarathgcnggnttyaargaratgaarccnatggarcarttyathgcncargtngayytntgygargaytgyacnacngg ntgyytnaarggnytngcnaaygtncaytgywsngayytnytnaaraartggytnccnwsnmgntgyaaracnttygcnwsnaarathcar wsncargtngayacnathaarggnytngcnggngaymgn (nucleotide sequence encoding full- length Metridia longa 22 luciferase with RCAD substitution at C₅); [SEQ ID NO: 191] atgatggarathcargtnytnttygcnytnathtgyttygcnytngtncargcnaayccnacngaraayaargayga yathgayathgtnggngtngarggnaarttyggnacnacngayytngaracngayytnttyacnathgtngargayatgaaygtnathwsnm gngayacnaayytngcnaaywsngaygcngaymgnggnaaratgccnggnaaraarytnccnytngargtnytnathgaratggargcna aygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnm gntgygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaarga rytnggnccnatggarcarttyathgcncargtngayytntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgyws ngcnytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcarwsngargtngayaayathaargsmytngcnggn gaymgn (nucleotide sequence encoding full-length Metridia pacifica 1v1 luciferase with RCAD substitution at C₅); [SEQ ID NO: 193] atgatggarathaargtnytnttygcnytnathtgyttygcnytngtncargcnaayccnacngaraayaargayga yathgayathgtnggngtngarggnaarttyggnacnacngayytngaracngayytnttyacnathgtngargayatgaaygtnathwsnm gngayacnaayytngcnaaywsngaygcngaymgnggnaaratgccnggnaaraarytnccnytngargtnytnathgaratggargcna aygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnm gntgygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaarga rytnggnccnatggarcarttyathgcncargtngayytntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgyws ngcnytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcarwsngargtngayaayathaarggnytngcnggn gaymgn (nucleotide sequence encoding full-length Metridia pacifica 1v2 luciferase with RCAD substitution at C₅); [SEQ ID NO: 195] atgatggargtnaargtngtnttygcnytnathtgyttygcnytngtncargcnaayccnacngaraayaargayga yathgayathgtnggngtngarggnaarttyggnacnacngayytngaracngayytnttyacnathgtngargayatgaaygtnathwsnm gngayacnaayytngcnaaywsngaygcngaymgnggnaaratgccnggnaaraarytnccnytngargtnytnathgaratggargcna aygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnm gntgygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaarga rytnggnccnatggarcarttyathgcncargtngayytntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgyws ngcnytnytnaaraartggytnecngaymgntgygcnwsnttygcngayaarathcarwsngargtngayaayathaarggnytngcnggn gaymgn (nucleotide sequence encoding full-length Metridia pacifica 1v3 luciferase with RCAD substitution at C₅); [SEQ ID NO: 197] atggayathaargtnytnttygcnytnathtgyathgcnytngtncargcnaayccnacngaraayaaygaycaya thaayathgtnggnathgarggnaarttyggnathacngayytngaracngayytnttyacnathtgggaracnaaymgnatgathwsnacn gayaaygarcargcnaayacngaywsnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnytnathgaratggargcnaay gcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaaraartayathccnggnmgntg ygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngayathwsnggnttyaargaratg ggnccnatggarcarttyathgcncargtngaymgntgyacngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsng arytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcarwsngargtncayaayathaarggnytngcnggnga ymgn (nucleotide sequence encoding full-length Metridia longa 39 luciferase with RCAD substitution at C₅); [SEQ ID NO: 199] atggayathaarttyathttygcnytngtntgyathgcnytngtncargcnaayccnacngtnaayaaygaygtnaa ymgnggnaaratgccnggnaaraarytnccnytngargtnytnathgaratggargcnaaygcnttyaargcnggntgyacnmgnggntgy ytnathtgyytnwsnaarathaartgyacngcnaaratgaarcartayathccnggnmgntgygcngaytayggnggngayaaraaracngg ncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargaratggarccnatggarcarttyathgcncargtngay ytntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsngarytnytnaaraartggytnccngaymgntgyg cnwsnttygcngayaarathcaraargargcncayaayathaarggnytngcnggngaymgn (nucleotide sequence encoding full-length Metridia longa 7 luciferase with RCAD substitution at C₅); [SEQ ID NO: 201] atgaaracngayathgcngayacngaymgngcnwsnaayttygtngcnacngaracngaygcnaaymgngg naaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaaygcnttyaargcnggntgyacnmgnggntgyytnathtg yytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgntgygcngaytayggnggngayaaraaracnggncargcn ggnathgtnggngcnathgtngayathccngarathwsnggnttyaargaratggcnccnatggarcarttyathgcncargtngaymgntgy gcnwsntgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsngarytnytnaaraartggytnccngaymgntgygcnwsn ttygcngayaarathcaraargargtncayaayathaarggnatggcnggngaymgn (nucleotide sequence encoding full-length Metridia longa GS luciferase with RCAD substitution at C₅); [SEQ ID NO: 203] atggayathaargtngtnttyacnytngtnttywsngcnytngtncargcncaraaracngayathgcngayacng aymgngcnwsnaayttygtngcnacngaracngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggara tggargcnaaygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathc cnggnmgntgygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggn ttyaargaratggcnccnatggarcarttyathgcncargtngaymgntgygcnwsntgyacnacnggntgyytnaarggnytngcnaaygt naartgywsngarytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnat ggcnggngaymgn (nucleotide sequence encoding full-length Metridia longa 164M3 luciferase with RCAD substitution at C₅); [SEQ ID NO: 205] atggayathaargtngtnttyacnytngtnttywsngcnytngtncargcnaarwsnacngarttygayccnaayat hgayathgtnggnytngarggnaarttyggnathacnaayytngaracngayytnttyacnathtgggaracnatggargtnatgathaargcn gayathgcngayacngaymgngcnwsnaayttygtngcnacngaracngaygcnaaymgnggnaaratgccnggnaaraarytnccnyt ngcngtnathatggaratggargcnaaygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcna aratgaargtntayathccnggnmgntgygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayat hccngarathwsnggnttyaargaratggcnccnatggarcarttyathgcncargtngaymgntgygcnwsntgyacnacnggntgyytna arggnytngcnaaygtnaartgywsngarytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtn cayaayathaarggnatggcnggngaymgn (nucleotide sequence encoding full-length Metridia longa 164v1 luciferase with RCAD substitution at C₅); [SEQ ID NO: 207] atggayathaargtngtnttyacnytngtnttywsngcnytngtncargcnaarwsnacngarttygayccnaayat hgayathgtnggnytngarggnaarttyggnathacnaayytngaracngayytnttyacnathtgggaracnatggargtnatgathaargcn gayathgcngayacngaymgngcnwsnaayttygtngcnacngaracngaygcnaaymgnggnaaratgccnggnaaraarytnccnyt ngcngtnathatggaratggargcnaaygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcna aratgaargtntayathccnggnmgntgygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayat hccngarathwsnggnttyaargaratggcnccnatggarcarttyathgcncargtngarmgntgygcnwsntgyacnacnggntgyytna arggnytngcnaaygtnaartgywsngarytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtn cayaayathaarggnatggcnggngaymgn (nucleotide sequence encoding full-length Metridia longa 164v2 luciferase with RCAD substitution at C₅); [SEQ ID NO: 209] atggayatgaargtnathttygcnytnathttywsngcnytngtncargcnaarwsnacngarttygayccnaayat hgayathgtnggnytngarggnaarttyggnathacnaayytngaracngayytnttyacnathtgggaracnatggargtnathaarwsnga yathgcngayacngaymgngtnwsnaayttygtngcnacngaracngaygcnaaymgnggnaaratgccnggnaaraarytnccnytng cngtnathatggaratggargcnaaygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaar atgaargtntayathccnggnmgntgygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathc cngarathwsnggnttyaargaratggcnccnatggarcarttyathgcncargtngaymgntgyacnwsntgyacnacnggntgyytnaar ggnytngcnaaygtnaartgywsngarytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtnca yaayathaarggnatggcnggngaymgn (nucleotide sequence encoding full-length Metridia longa 16 luciferase with RCAD substitution at C₅); [SEQ ID NO: 211] atggayathaargtngtnttygcnytngtnttywsngcnytngtncargcnaarwsnacngarttygayccnaaya thgayathgtnggnytngarggnaarttyggnathacnaayytngaracngayytnttyacnathtgggaracnatggargtnathaaracnga yathgcngayacngaymgngcnmgnwsnttygtngcnacngaracngaygcnaaymgnggnaaratgccnggnaaraarytnccnytn gcngtnathatggaratggargcnaaygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaa ratgaargtntayathccnggnmgntgygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayath ccngarathwsnggnttyaargaratggarccnatggarcarttyathgcncargtngaymgntgygcnwsntgyacnacnggntgyytnaa rggnytngcnaaygtnaartgywsngarytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtnc ayaayathaarggnatggcnggngaymgn (nucleotide sequence encoding full-length Metridia longa 45 luciferase with RCAD substitution at C₅); [SEQ ID NO: 213] atggayathaargtngtnttygcnytngtnttywsngcnytngtncargcnaarwsnacngarttygayccnaaya thgaygtngtnggnytngarggnaarttyggnathacnaayytngaracngayytnttyacnathtgggaracnatggargtnathaaracnga yathgcngayacngaymgngcnmgnaayttygtngcnacngaracngaygcnaaymgnggnaaratgccnggnaaraarytnccnytn gcngtnathatggaratggargcnaaygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaa ratgaargtntayathccnggnmgntgygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayath ccngarathwsnggnttyaargaratggarccnatggarcarttyathgcncargtngaymgntgygcnwsntgyaayacnggntgyytnaa rggnytngcnaaygtnaartgywsngarytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtnc ayaayathaarggnatggcnggngaymgn (nucleotide sequence encoding full-length Metridia longa 52 luciferase with RCAD substitution at C₅), [SEQ ID NO: 215] atggayatgmgngtnathttygcnytngtnttywsnwsnytngtncargcnaarwsnacngarttygayccnaay athaayathgtnggnytngarggnaarttyggnathacnaayytngaracngayytnttyacnathtgggaracnatggaygtnathaarwsng ayathacngayacngaymgngtnwsnaayttygtngcnacngaracngaygcnaaymgnggnaaratgccnggnaaraarytnccnytn gcngtnathatggaratggargcnaaygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaa ratgaargtntayathccnggnmgntgygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayath ccngarathwsnggnttyaargaratggcnccnatggarcarttyathgcncargtngayytntgygcnacntgyacnacnggntgyytnaarg gnytngcnaaygtnaartgywsngarytnytnaaraartggytnccnggnmgntgygcnwsnttygcngayaarathcaraargargtncay aayathaarggnatggcnggngaymgn (nucleotide sequence encoding full-length Metridia longa AL luciferase with RCAD substitution at C₅); [SEQ ID NO: 217] atgggngtnaargtnytnttygcnytnathtgyathgcngtngcngargcnaarccnacngaraayaaygargaytt yaayathgtngcngtngcnwsnaayttygcnacnacngayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargt nytnaargaratggargcnaaygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaaratg aaraarttyathccnggnmgntgycayacntaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathccng arathccngnttyaargayytngarccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggny tngcnaaygtncartgywsngayytnytnaaraartggytnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaa athaarggngcnggnggngay (nucleotide sequence encoding full-length sequence of Gaussia princeps Prolume luciferase with RCAD substitution at C₆); [SEQ ID NO: 219] atgggngtnaargtnytnttygcnytnathtgyathgcngtngcngargcnaarccnacngaraayaaygargaytt yaayathgtngcngtngcnwsnaayttygcnacnacngayymgaygcngaymgnggnaarytnccnggnaaraarytnccnytngargt nytnaargaratggargcnaaygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaaratg aaraarttyathccnggnmgntgycayacntaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathccng arathccnggnttyaargayytngarccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggny tngcnaaygtncartgywsngayytnytnaaraartggytnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaar athaarggngcnggnggngayaargaygarytn (nucleotide sequence encoding full-length sequence of Gaussia princeps Prolume KDEL luciferase with RCAD substitution at C₆); [SEQ ID NO: 221] atgggngtnaargtnytnttygcnytnathtgyathgcngtngcngargcnaarccnacngaraayaaygargaytt yaayathgtngcngtngcnwsnaayttygcnacnacngayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargt nytnaargarathgargcnaaygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaaratg aaraarttyathccnggnmgntgycayacntaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathccng arathccnggnttyaargayytngarccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggny tngcnaaygtncartgywsngayytnytnaaraartggytnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaar athaarggngcnggnggngay (nucleotide sequence encoding full-length sequence of Gaussia princeps Mutant 1 luciferase with RCAD substitution at C₆); [SEQ ID NO: 223] atgggngtnaargtnytnttygcnytnathtgyathgcngtngcngargcnaarccnacngaraayaaygargaytt yaayathgtngcngtngcnwsnaayttygcnacnacngayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargt nytnaargarytngargcnaaygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaarat gaaraarttyathccnggnmgntgycayacntaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathccn garathccnggnttyaargayytngarccnytngarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaargg nytngcnaaygtncartgywsngayytnytnaaraartggytnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngaya arathaarggngcnggnggngay (nucleotide sequence encoding full-length sequence of Gaussia princeps Mutant 2 luciferase with RCAD substitution at C₆); [SEQ ID NO: 225] atggargcnaarccnacngaraayaaygargayttyaayathgtngcngtngcnwsnaayttygcnacnacnga yytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargtnytnaargaratggargcnaaygcnmgnaargcnggntg yacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaaratgaaraarttyathccnggnmgntgycayacntaygarggn gayaargarwsngcncarggnggnathggngargcnathgtngayathccngarathccnggnttyaargayytngarccnatggarcartty athgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtncartgywsngayytnytnaaraartggy tnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaarathaarggngcnggnggngay (nucleotide sequence encoding full-length sequence of Gaussia princeps GS luciferase with RCAD substitution at C₆); [SEQ ID NO: 227] atgggngtnaarytnathttygcngtnytntgygtngcngcngcncargcngcnacnathaaygaraayttygarg ayathgaygtngtngcnathggnggnwsnttygcnytngaygtngaygcnaaymgngsnggncayggnggncayccnggnaaraarat gccnaargargtnytngtngaratggargcnaaygcnaarmgngcnggntgycaymgnggntgyytnathtgyytnwsncayathaartgy acnaaraaratgaaraarttyathccnggnmgntgycaywsntaygarggngayaargaywsngcncarggnggnathggngargarathg tngayatgccngarathccnggnttyaargayaargarccnatggaycarttyathgcncargtngaymgntgygcngaytgyacnacnggnt gyytnaarggnytngcnaaygtncaytgywsngcnytnytnaaraartggytnccnwsnmgntgyaaracnttygcnwsnaarathcarws ncargtngayacnathaarggnytngcnggngaymgn (nucleotide sequence encoding full- length Metridia pacifica 2a luciferase with RCAD substitution at C₆); [SEQ ID NO: 229] atgggngtnaarytnathttygcngtngtntgygtngcngcngcncargcngcnacnathaaygaraayttygarg ayathgayytngtngcnathggnggnwsnttygcnytngaygtngaygcnaaymgnggnggncayggnggncayccnggnaaraarat gccnaargargtnytngtngaratggargcnaaygcnaarmgngcnggntgycaymgnggntgyytnathtgyytnwsncayathaartgy acnaaraaratgaaraarttyathccnggnmgntgycaywsntaygarggngayaargaywsngcncarggnggnathggngargarathg tngayatgccngarathccnggnttyaargayaargarccnatggaycarttyathgcncargtngaymgntgygcngaytgyacnacnggnt gyytnaarggnytngcnaaygtncaytgywsngayytnytnaaraartggytnccnwsnmgntgyaaracnttygcnwsnaarathcarws ncargtngayacnathaarggnytngcnggngaymgn (nucleotide sequence encoding full- length Metridia pacifica 2bv1 luciferase with RCAD substitution at C₆); [SEQ ID NO: 231] atgggngtnaarytnathttygcngtngtntgygtngcngcngcncargcngcnacnathaaygaraayttygarg ayathgayytngtngcnathggnggnwsnttygcnytngaygtngaygcnaaymgnggnggncayggnggncayccnggnaaraarat gccnaargargtnccngtngaratggargcnaaygcnaanngngcnggntgycaymgnggntgyytnathtgyytnwsncayathaartg yacnaaraaratgaaraarttyathccnggnmgntgycaywsntaygarggngayaargaywsngcncarggnggnathggngargarath gtngayatgccngarathccnggnttyaargayaargarccnatggaycarttyathgcncargtngaymgntgygcngaytgyacnacngg ntgyytnaarggnytngcnaaygtncaytgywsngayytnytnaaraartggytnccnwsnmgntgyaaracnttygcnwsnaarathcar wsncargtngayacnathaarggnytngcnggngaymgn (nucleotide sequence encoding full- length Metridia pacifica 2bv2 luciferase with RCAD substitution at C₆); [SEQ ID NO: 233] atgggngtnaarytnathttygcngtngtntgygtngcngtngcncargcngcnacnathcargaraayttygarga yathgayytngtngcnathggnggnwsnttygcnwsngaygtngaygcnaaymgnggnggncayggnggncayccnggnaaraaratg ccnaargargtnytnatggaratggargcnaaygcnaarmgngcnggntgycaymgnggntgyytngtntgyytnwsncayathaartgya cngcncaratgcaraarttyathccnggnmgntgycaywsntaygcnggngayaargaywsngcncarggnggnathgcnggnggngcn athgtngayathccngarathgcnggnttyaargaratgaarccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacn ggntgyytnaarggnytngcnaaygtncaytgywsngayytnytnaaraartggytnccnwsnmgntgyaaracnttygcnwsnaarathc arwsncargtngayacnathaarggnytngcnggngaymgn (nucleotide sequence encoding full-length Metridia longa 22 luciferase with RCAD substitution at C₆); [SEQ ID NO: 235] atgatggarathcargtnytnttygcnytnathtgyttygcnytngtncargcnaayccnacngaraayaargayga yathgayathgtnggngtngarggnaarttyggnacnacngayytngaracngayytnttyacnathgtngargayatgaaygtnathwsnm gngayacnaayytngcnaaywsngaygcngaymgnggnaaratgccnggnaaraarytnccnytngargtnytnathgaratggargcna aygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnm gntgycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaarga rytnggnccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgy wsngcnytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcarwsngargtngayaayathaarggnytngcn ggngaymgn (nucleotide sequence encoding full-length Metridia pacifica 1v1 luciferase with RCAD substitution at C₆); [SEQ ID NO: 237] atgatggarathaargtnytnttygcnytnathtgyttygcnytngtncargcnaayccnacngaraayaargayga yathgayathgtnggngtngarggnaarttyggnacnacngayytngaracngayytnttyacnathgtngargayatgaaygtnathwsnm gngayacnaayytngcnaaywsngaygcngaymgnggnaaratgccnggnaaraarytnccnytngargtnytnathgaratggargcna aygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnm gntgycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaarga rytnggnccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgy wsngcnytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcarwsngargtngayaayathaarggnytngcn ggngaymgn (nucleotide sequence encoding full-length Metridia pacifica 1v2 luciferase with RCAD substitution at C₆); [SEQ ID NO: 239] atgatggargtnaargtngtnttygcnytnathtgyttygcnytngtncargcnaayccnacngaraayaargayga yathgayathgtnggngtngarggnaarttyggnacnacngayytngaracngayytnttyacnathgtngargayatgaaygtnathwsnm gngayacnaayytngcnaaywsngaygcngaymgnggnaaratgccnggnaaraarytnccnytngargtnytnathgaratggargcna aygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnm gntgycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaarga rytnggnccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgy wsngcnytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcarwsngargtngayaayathaarggnytngcn ggngaymgn (nucleotide sequence encoding full-length Metridia pacifica 1v3 luciferase with RCAD substitution at C₆); [SEQ ID NO: 241] atggayathaargtnytnttygcnytnathtgyathgcnytngtncargcnaayccnacngaraayaaygaycaya thaayathgtnggnathgarggnaarttyggnathacngayytngaracngayytnttyacnathtgggaracnaaymgnatgathwsnacn gayaaygarcargcnaayacngaywsnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnytnathgaratggargcnaay gcnttyaargcnggntgyacnmgnggntgyymathtgyytnwsnaarathaartgyacngcnaaratgaaraartayathccnggnmgntg ycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngayathwsnggnttyaargaratg ggnccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsng arytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcarwsngargtncayaayathaarggnytngcnggnga ymgn (nucleotide sequence encoding full-length Metridia longa 39 luciferase with RCAD substitution at C₆); [SEQ ID NO: 243] atggayathaarttyathttygcnytngtntgyathgcnytngtncargcnaayccnacngtnaayaaygaygtnaa ymgnggnaaratgccnggnaaraarytnccnytngargtnytnathgaratggargcnaaygcnttyaargcnggntgyacnmgnggntgy ytnathtgyytnwsnaarathaartgyacngcnaaratgaarcartayathccnggnmgntgycaygaytayggnggngayaaraaracngg ncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargaratggarccnatggarcarttyathgcncargtngay mgntgygcngaytgyacnacnggntgyytnaarggnymgcnaaygtnaartgywsngarytnytnaaraartggytnccngaymgntgy gcnwsnttygcngayaarathcaraargargcncayaayathaarggnytngcnggngaymgn (nucleotide sequence encoding full-length Metridia longa 7 luciferase with RCAD substitution at C₆); [SEQ ID NO: 245] atgaaracngayathgcngayacngaymgngcnwsnaayttygtngcnacngaracngaygcnaaymgngg naaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaaygcnttyaargcnggntgyacnmgnggntgyytnathtg yytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgntgycaygaytayggnggngayaaraaracnggncargcn ggnathgtnggngcnathgtngayathccngarathwsnggnttyaargaratggcnccnatggarcarttyathgcncargtngaymgntgy gcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsngarytnytnaaraartggytnccngaymgntgygcnwsn ttygcngayaarathcaraargargtncayaayathaarggnatggcnggngaymgn (nucleotide sequence encoding full-length Metridia longa GS luciferase with RCAD substitution at C₆); [SEQ ID NO: 247] atggayathaargtngtnttyacnytngtnttywsngcnytngtncargcncaraaracngayathgcngayacng aymgngcnwsnaayttygtngcnacngaracngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggara tggargcnaaygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathc cnggnmgntgycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggn ttyaargaratggcnccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtn aartgywsngarytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatg gcnggngaymgn (nucleotide sequence encoding full-length Metridia longa 164M3 luciferase with RCAD substitution at C₆); [SEQ ID NO: 249] atggayathaargtngtnttyacnytngtnttywsngcnytngtncargcnaarwsnacngarttygayccnaayat hgayathgtnggnytngarggnaarttyggnathacnaayytngaracngayytnttyacnathtgggaracnatggargtnatgathaargcn gayathgcngayacngaymgngcnwsnaayttygtngcnacngaracngaygcnaaymgnggnaaratgccnggnaaraarytnccnyt ngcngtnathatggaratggargcnaaygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcna aratgaargtntayathccnggnmgntgycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayat hccngarathwsnggnttyaargaratggcnccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytna arggnytngcnaaygtnaartgywsngarytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtn cayaayathaarggnatggcnggngaymgn (nucleotide sequence encoding full-length Metridia longa 164v1 luciferase with RCAD substitution at C₆); [SEQ ID NO: 251] atggayathaargtngtnttyacnytngtnttywsngcnytngtncargcnaarwsnacngarttygayccnaayat hgayathgtnggnytngarggnaarttyggnathacnaayytngaracngayytnttyacnathtgggaracnatggargtnatgathaargcn gayathgcngayacngaymgngcnwsnaayttygtngcnacngaracngaygcnaaymgnggnaaratgccnggnaaraarytnccnyt ngcngtnathatggaratggargcnaaygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcna aratgaargtntayathccnggnmgntgycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayat hccngarathwsnggnttyaargaratggcnccnatggarcarttyathgcncargtngarmgntgygcngaytgyacnacnggntgyytna arggnytngcnaaygtnaartgywsngarytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtn cayaayathaarggnatggcnggngaymgn (nucleotide sequence encoding full-length Metridia longa 164v2 luciferase with RCAD substitution at C₆); [SEQ ID NO: 253] atggayatgaargtnathttygcnytnathttywsngcnytngtncargcnaarwsnacngarttygayccnaayat hgayathgtnggnytngarggnaarttyggnathacnaayytngaracngayytnttyacnathtgggaracnatggargtnathaarwsnga yathgcngayacngaymgngtnwsnaayttygtngcnacngaracngaygcnaaymgnggnaaratgccnggnaaraarytnccnytng cngtnathatggaratggargcnaaygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaar atgaargtntayathccnggnmgntgycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathc cngarathwsnggnttyaargaratggcnccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaar ggnytngcnaaygtnaartgywsngarytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtnca yaayathaarggnatggcnggngaymgn (nucleotide sequence encoding full-length Metridia longa 16 luciferase with RCAD substitution at C₆); [SEQ ID NO: 255] atggayathaargtngtnttygcnytngtnttywsngcnytngtncargcnaarwsnacngarttygayccnaaya thgayathgtnggnytngarggnaarttyggnathacnaayytngaracngayytnttyacnathtgggaracnatggargtnathaaracnga yathgcngayacngaymgngcnmgnwsnttygtngcnacngaracngaygcnaaymgnggnaaratgccnggnaaraarytnccnytn gcngtnathatggaratggargcnaaygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaa ratgaargtntayathccnggnmgntgycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayath ccngarathwsnggnttyaargaratggarccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaar ggnytngcnaaygtnaartgywsngarytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtnca yaayathaarggnatggcnggngaymgn (nucleotide sequence encoding full-length Metridia longa 45 luciferase with RCAD substitution at C₆); [SEQ ID NO: 257] atggayathaargtngtnttygcnytngtnttywsngcnytngtncargcnaarwsnacngarttygayccnaaya thgaygtngtnggnytngarggnaarttyggnathacnaayytngaracngayytnttyacnathtgggaracnatggargtnathaaracnga yathgcngayacngaymgngcnmgnaayttygtngcnacngaracngaygcnaaymgnggnaaratgccnggnaaraarytnccnytn gcngtnathatggaratggargcnaaygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaa ratgaargtntayathccnggnmgntgycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayath ccngarathwsnggnttyaargaratggarccnatggarcarttyathgcncargtngaymgntgygcngaytgyaayacnggntgyytnaar ggnytngcnaaygtnaartgywsngarytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtnca yaayathaarggnatggcnggngaymgn (nucleotide sequence encoding full-length Metridia longa 52 luciferase with RCAD substitution at C₆); [SEQ ID NO: 259] atggayatgmgngtnathttygcnytngtnttywsnwsnytngtncargcnaarwsnacngarttygayccnaay athaayathgtnggnytngarggnaarttyggnathacnaayytngaracngayytnttyacnathtgggaracnatggaygtnathaarwsng ayathacngayacngaymgngtnwsnaayttygtngcnacngaracngaygcnaaymgnggnaaratgccnggnaaraarytnccnytn gcngtnathatggaratggargcnaaygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaa ratgaargtntayathccnggnmgntgycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayath ccngarathwsnggnttyaargaratggcnccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaa rggnytngcnaaygtnaartgywsngarytnytnaaraartggytnccnggnmgntgygcnwsnttygcngayaarathcaraargargtnc ayaayathaarggnatggcnggngaymgn (nucleotide sequence encoding full-length Metridia longa AL luciferase with RCAD substitution at C₆); [SEQ ID NO: 261] atgggngtnaargtnytnttygcnytnathtgyathgcngtngcngargcnaarccnacngaraayaaygargaytt yaayathgtngcngtngcnwsnaayttygcnacnacngayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargt nytnaargaratggargcnaaygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaaratg aaraarttyathccnggnmgntgycayacntaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathccng arathccnggnttyaargayytngarccnatggarcarttyathgcncargtngayytntgygtngaytgyacnacnggntgyytnaarggnyt ngcnaaygtnaartgywsngayytnytnaaraartggytnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaara thaarggngcnggnggngay (nucleotide sequence encoding full-length sequence of Gaussia princeps Prolume luciferase with KCSD substitution at C₉); [SEQ ID NO: 263] atgggngtnaargtnytnttygcnytnathtgyathgcngtngcngargcnaarccnacngaraayaaygargaytt yaayathgtngcngtngcnwsnaayttygcnacnacngayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargt nytnaargaratggargcnaaygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaaratg aaraarttyathccnggnmgntgycayacntaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathccng arathccnggnttyaargayytngarccnatggarcarttyathgcncargtngayytntgygtngaytgyacnacnggntgyytnaarggnyt ngcnaaygtnaartgywsngayytnytnaaraartggytnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaara thaarggngcnggnggngayaargaygarytn (nucleotide sequence encoding full-length sequence of Gaussia princeps Prolume KDEL luciferase with KCSD substitution at C₉); [SEQ ID NO: 265] atgggngtnaargtnytnttygcnytnathtgyathgcngtngcngargcnaarccnacngaraayaaygargaytt yaayathgtngcngtngcnwsnaayttygcnacnacngayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargt nytnaargarathgargcnaaygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaaratg aaraarttyathccnggnmgntgycayacntaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathccng arathccnggnttyaargayytngarccnatggarcarttyathgcncargtngayytntgygtngaytgyacnacnggntgyytnaarggnyt ngcnaaygtnaartgywsngayytnytnaaraartggytnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaara thaarggngcnggnggngay (nucleotide sequence encoding full-length sequence of Gaussia princeps Mutant 1 luciferase with KCSD substitution at C₉); [SEQ ID NO: 267] atgggngtnaargtnytnttygcnytnathtgyathgcngtngcngargcnaarccnacngaraayaaygargaytt yaayathgtngcngtngcnwsnaayttygcnacnacngayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargt nytnaargarytngargcnaaygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaarat gaaraarttyathccnggnmgntgycayacntaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathccn garathccnggnttyaargayytngarccnytngarcarttyathgcncargtngayytntgygtngaytgyacnacnggntgyytnaarggny tngcnaaygtnaartgywsngayytnytnaaraartggytnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaar athaarggngcnggnggngay (nucleotide sequence encoding full-length sequence of Gaussia princeps Mutant 2 luciferase with KCSD substitution at C₉); [SEQ ID NO: 269] atggargcnaarccnacngaraayaaygargayttyaayathgtngcngtngcnwsnaayttygcnacnacnga yytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargtnytnaargaratggargcnaaygcnmgnaargcnggntg yacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaaratgaaraarttyathccnggnmgntgycayacntaygarggn gayaargarwsngcncarggnggnathggngargcnathgtngayathccngarathccnggnttyaargayytngarccnatggarcartty athgcncargtngayytntgygtngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsngayytnytnaaraartggytn ccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaarathaarggngcnggnggngay (nucleotide sequence encoding full-length sequence of Gaussia princeps GS luciferase with KCSD substitution at C₉) [SEQ ID NO: 271] atgggngtnaarytnathttygcngtnytntgygtngcngcngcncargcngcnacnathaaygaraayttygarg ayathgaygtngtngcnathggnggnwsnttygcnytngaygtngaygcnaaymgnggnggncayggnggncayccnggnaaraarat gccnaargargtnytngtngaratggargcnaaygcnaarmgngcnggntgycaymgnggntgyytnathtgyytnwsncayathaartgy acnaaraaratgaaraarttyathccnggnmgntgycaywsntaygarggngayaargaywsngcncarggnggnathggngargarathg tngayatgccngarathccnggnttyaargayaargarccnatggaycarttyathgcncargtngayytntgygtngaytgyacnacnggntg yytnaarggnytngcnaaygtnaartgywsngayytnytnaaraartggytnccnwsnmgntgyaaracnttygcnwsnaarathcarwsn cargtngayacnathaarggnytngcnggngaymgn (nucleotide sequence encoding full- length Metridia pacifica 2a luciferase with KCSD substitution at C₉); [SEQ ID NO: 273] atgggngtnaarytnathttygcngtngtntgygtngcngcngcncargcngcnacnathaaygaraayttygarg ayathgayytngtngcnathggnggnwsnttygcnytngaygtngaygcnaaymgnggnggncayggnggncayccnggnaaraarat gccnaargargtnytngtngaratggargcnaaygcnaarmgngcnggntgycaymgnggntgyytnathtgyytnwsncayathaartgy acnaaraaratgaaraarttyathccnggnmgntgycaywsntaygarggngayaargaywsngcncarggnggnathggngargarathg tngayatgccngarathccnggnttyaargayaargarccnatggaycarttyathgcncargtngayytntgygtngaytgyacnacnggntg yytnaarggnytngcnaaygtnaartgywsngayytnytnaaraartggytnccnwsnmgntgyaaracnttygcnwsnaarathcarwsn cargtngayacnathaarggnytngcnggngaymgn (nucleotide sequence encoding full- length Metridia pacifica 2bv1 luciferase with KCSD substitution at C₉); [SEQ ID NO: 275] atgggngtnaarytnathttygcngtngtntgygtngcngcngcncargcngcnacnathaaygaraayttygarg ayathgayytngtngcnathggnggnwsnttygcnytngaygtngaygcnaaymgnggnggncayggnggncayccnggnaaraarat gccnaargargtnccngtngaratggargcnaaygcnaarmgngcnggntgycaymgnggntgyytnathtgyytnwsncayathaartg yacnaaraaratgaaraarttyathccnggnmgntgycaywsntaygarggngayaargaywsngcncarggnggnathggngargarath gtngayatgccngarathccnggnttyaargayaargarccnatggaycarttyathgcncargtngayytntgygtngaytgyacnacnggnt gyytnaarggnytngcnaaygtnaartgywsngayytnytnaaraartggytnccnwsnmgntgyaaracnttygcnwsnaarathcarws ncargtngayacnathaarggnytngcnggngaymgn (nucleotide sequence encoding full- length Metridia pacifica 2bv2 luciferase with KCSD substitution at C₉); [SEQ ID NO: 277] atgggngtnaarytnathttygcngtngtntgygtngcngtngcncargcngcnacnathcargaraayttygarga yathgayytngtngcnathggnggnwsnttygcnwsngaygtngaygcnaaymgnggnggncayggnggncayccnggnaaraaratg ccnaargargtnytaatggaratggargcnaaygcnaarmgngcnggntgycaymgnggntgyytngtntgyytnwsncayathaartgya cngcncaratgcaraarttyathccnggnmgntgycaywsntaygcnggngayaargaywsngcncarggnggnathgcnggnggngcn [SEQ ID NO: 277] athgtngayathccngarathgcnggnttyaargaratgaarccnatggarcarttyathgcncargtngayytntgygargaytgyacnacngg ntgyytnaarggnytngcnaaygtnaartgywsngayytnytnaaraartggytnccnwsnmgntgyaaracnttygcnwsnaarathcar wsncargtngayacnathaarggnytngcnggngaymgn (nucleotide sequence encoding full- length Metridia longa 22 luciferase with KCSD substitution at C₉); [SEQ ID NO: 279] atgatggarathcargtnytnttygcnytnathtgyttygcnytngtncargcnaayccnacngaraayaargayga yathgayathgtnggngtngarggnaarttyggnacnacngayytngaracngayytnttyacnathgtngargayatgaaygtnathwsnm gngayacnaayytngcnaaywsngaygcngaymgnggnaaratgccnggnaaraarytnccnytngargtnytnathgaratggargcna aygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnm gntgycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaarga rytnggnccnatggarcarttyathgcncargtngayytntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgyws ngayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcarwsngargtngayaayathaarggnytngcnggn gaymgn (nucleotide sequence encoding full-length Metridia pacifica 1v1 luciferase with KCSD substitution at C₉); [SEQ ID NO: 281] atgatggarathaargtnytnttygcnytnathtgyttygcnytngtncargcnaayccnacngaraayaargayga yathgayathgtnggngtngarggnaarttyggnacnacngayytngaracngayytnttyacnathgtngargayatgaaygtnathwsnm gngayacnaayytngcnaaywsngaygcngaymgnggnaaratgccnggnaaraarytnccnytngargtnytnathgaratggargcna aygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnm gntgycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaarga rytnggnccnatggarcarttyathgcncargtngayytntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgyws ngayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcarwsngargtngayaayathaarggnytngcnggn gaymgn (nucleotide sequence encoding full-length Metridia pacifica 1v2 luciferase with KCSD substitution at C₉); [SEQ ID NO: 283] atgatggargtnaargtngtnttygcnytnathtgyttygcnytngtncargcnaayccnacngaraayaargayga yathgayathgtnggngtngarggnaarttyggnacnacngayytngaracngayytnttyacnathgtngargayatgaaygtnathwsnm gngayacnaayytngcnaaywsngaygcngaymgnggnaaratgccnggnaaraarytnccnytngargtnytnathgaratggargcna aygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnm gntgycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaarga rytnggnccnatggarcarttyathgcncargtngayytntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgyws ngayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcarwsngargtngayaayathaarggnytngcnggn gaymgn (nucleotide sequence encoding full-length Metridia pacifica 1v3 luciferase with KCSD substitution at C₉); [SEQ ID NO: 285] atggayathaargtnytnttygcnytnathtgyathgcnytngtncargcnaayccnacngaraayaaygaycaya thaayathgtnggnathgarggnaarttyggnathacngayytngaracngayytnttyacnathtgggaracnaaymgnatgathwsnacn gayaaygarcargcnaayacngaywsnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnytnathgaratggargcnaay gcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaaraartayathccnggnmgntg ycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngayathwsnggnttyaargaratg ggnccnatggarcarttyathgcncargtngaymgntgyacngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsng ayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcarwsngargtncayaayathaarggnytngcnggnga ymgn (nucleotide sequence encoding full-length Metridia longa 39 luciferase with KCSD substitution at C₉); [SEQ ID NO: 287] atggayathaarttyathttygcnytngtntgyathgcnytngtncargcnaayccnacngtnaayaaygaygtnaa ymgnggnaaratgccnggnaaraarytnccnytngargtnytnathgaratggargcnaaygcnttyaargcnggntgyacnmgnggntgy ytnathtgyytnwsnaarathaartgyacngcnaaratgaarcartayathccnggnmgntgycaygaytayggnggngayaaraaracngg ncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargaratggarccnatggarcarttyathgcncargtngay ytntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsngayytnytnaaraatggytnccngaymgntgyg cnwsnttygcngayaarathcaraargargcncayaayathaarggnytngcnggngaymgn (nucleotide sequence encoding full-length Metridia longa 7 luciferase with KCSD substitution at C₉); [SEQ ID NO: 289] atgaaracngayathgcngayacngaymgngcnwsnaayttygtngcnacngaracngaygcnaaymgngg naaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaaygcnttyaargcnggntgyacnmgnggntgyytnathtg yytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgntgycaygaytayggnggngayaaraaracnggncargcn ggnathgtnggngcnathgtngayathccngarathwsnggnttyaargaratggcnccnatggarcarttyathgcncargtngaymgntgy gcnwsntgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsngayytnytnaaraartggytnccngaymgntgygcnws nttygcngayaarathcaraargargtncayaayathaarggnatggcnggngaymgn (nucleotide sequence encoding full-length Metridia longa GS luciferase with KCSD substitution at C₉); [SEQ ID NO: 291] atggayathaargtngtnttyacnytngtnttywsngcnytngtncargcncaraaracngayathgcngayacng aymgngcnwsnaayttygtngcnacngaracngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggara tggargcnaaygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathc cnggnmgntgycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggn ttyaargaratggcnccnatggarcarttyathgcncargtngaymgntgygcnwsntgyacnacnggntgyytnaarggnytngcnaaygt naartgywsngayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggna tggcnggngaymgn (nucleotide sequence encoding full-length Metridia longa 164M3 luciferase with KCSD substitution at C₉); [SEQ ID NO: 293] atggayathaargtngtnttyacnytngtnttywsngcnytngtncargcnaarwsnacngarttygayccnaayat hgayathgtnggnytngarggnaarttyggnathacnaayytngaracngayytnttyacnathtgggaracnatggargtnatgathaargcn gayathgcngayacngaymgngcnwsnaayttygtngcnacngaracngaygcnaaymgnggnaaratgccnggnaaraarytnccnyt ngcngtnathatggaratggargcnaaygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcna aratgaargtntayathccnggnmgntgycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayat hccngarathwsnggnttyaargaratggcnccnatggarcarttyathgcncargtngaymgntgygcnwsntgyacnacnggntgyytna arggnytngcnaaygtnaartgywsngayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtn cayaayathaarggnatggcnggngaymgn (nucleotide sequence encoding full-length Metridia longa 164v1 luciferase with KCSD substitution at C₉); [SEQ ID NO: 295] atggayathaargtngtnttyacnytngtnttywsngcnytngtncargcnaarwsnacngarttygayccnaayat hgayathgtnggnytngarggnaarttyggnathacnaayytngaracngayytnttyacnathtgggaracnatggargtnatgathaargcn gayathgcngayacngaymgngcnwsnaayttygtngcnacngaracngaygcnaaymgnggnaaratgccnggnaaraarytnccnyt ngcngtnathatggaratggargcnaaygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcna aratgaargtntayathccnggnmgntgycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayat hccngarathwsnggnttyaargaratggcnccnatggarcarttyathgcncargtngarmgntgygcnwsntgyacnacnggntgyytna arggnytngcnaaygtnaartgywsngayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtn cayaayathaarggnatggcnggngaymgn (nucleotide sequence encoding full-length Metridia longa 164v2 luciferase with KCSD substitution at C₉); [SEQ ID NO: 297] atggayatgaargtnathttygcnytnathttywsngcnytngtncargcnaarwsnacngarttygayccnaayat hgayathgtnggnytngarggnaarttyggnathacnaayytngaracngayytnttyacnathtgggaracnatggargtnathaarwsnga yathgcngayacngaymgngtnwsnaayttygtngcnacngaracngaygcnaaymgnggnaaratgccnggnaaraarytnccnytng cngtnathatggaratggargcnaaygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaar atgaargtntayathccnggnmgntgycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathc cngarathwsnggnttyaargaratggcnccnatggarcarttyathgcncargtngaymgntgyacnwsntgyacnacnggntgyytnaar ggnytngcnaaygtnaartgywsngayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtnca yaayathaarggnatggcnggngaymgn (nucleotide sequence encoding full-length Metridia longa 16 luciferase with KCSD substitution at C₉); [SEQ ID NO: 299] atggayathaargtngtnttygcnytngtnttywsngcnytngtncargcnaarwsnacngarttygayccnaaya thgayathgtnggnytngarggnaarttyggnathacnaayytngaracngayytnttyacnathtgggaracnatggargtnathaaracnga yathgcngayacngaymgngcnmgnwsnttygtngcnacngaracngaygcnaaymgnggnaaratgccnggnaaraarytnccnytn gcngtnathatggaratggargcnaaygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaa ratgaargtntayathccnggnmgntgycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayath ccngarathwsnggnttyaargaratggarccnatggarcarttyathgcncargtngaymgntgygcnwsntgyacnacnggntgyytnaa rggnytngcnaaygtnaartgywsngayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtnc ayaayathaarggnatggcnggngaymgn (nucleotide sequence encoding full-length Metridia longa 45 luciferase with KCSD substitution at C₉); [SEQ ID NO: 301] atggayathaargtngtnttygcnytngtnttywsngcnytngtncargcnaarwsnacngarttygayccnaaya thgaygtngtnggnytngarggnaarttyggnathacnaayytngaracngayytnttyacnathtgggaracnatggargtnathaaracnga yathgcngayacngaymgngcnmgnaayttygtngcnacngaracngaygcnaaymgnggnaaratgccnggnaaraarytnccnytn gcngtnathatggaratggargcnaaygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaa ratgaargtntayathccnggnmgntgycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayath ccngarathwsnggnttyaargaratggarccnatggarcarttyathgcncargtngaymgntgygcnwsntgyaayacnggntgyytnaa rggnytngcnaaygtnaartgywsngayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtnc ayaayathaarggnatggcnggngaymgn (nucleotide sequence encoding full-length Metridia longa 52 luciferase with KCSD substitution at C₉); [SEQ ID NO: 303] atggayatgmgngtnathttygcnytngtnttywsnwsnytngtncargcnaarwsnacngarttygayccnaay athaayathgtnggnytngarggnaarttyggnathacnaayytngaracngayytnttyacnathtgggaracnatggaygtnathaarwsng ayathacngayacngaymgngtnwsnaayttygtngcnacngaracngaygcnaaymgnggnaaratgccnggnaaraarytnccnytn gcngtnathatggaratggargcnaaygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaa ratgaargtntayathccnggnmgntgycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayath ccnganrthwsnggnttyaargaratggcnccnatggarcarttyathgcncargtngayytntgygcnacntgyacnacnggntgyytnaarg gnytngcnaaygtnaartgywsngayytnytnaaraartggytnccnggnmgntgygcnwsnttygcngayaarathcaraargargtnca yaayathaarggnatggcnggngaymgn (nucleotide sequence encoding full-length Metridia longa AL luciferase with KCSD substitution at C₉); [SEQ ID NO: 305] atgggngtnaargtnytnttygcnytnathtgyathgcngtngcngargcnaarccnacngaraayaaygargaytt yaayathgtngcngtngcnwsnaayttygcnacnacngayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargt nytnaargaratggargcnaaygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaaratg aaraarttyathccnggnmgntgygcngaytaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathccn garathccnggnttyaargayytngarccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggn ytngcnaaygtncartgywsngayytnytnaaraartggytnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaa rathaarggngcnggnggngay (nucleotide sequence encoding full-length sequence of Gaussia princeps Prolume luciferase with RCAD substitution at C₅ and at C₆); [SEQ ID NO: 307] atgggngtnaargtnytnttygcnytnathtgyathgcngtngcngargcnaarccnacngaraayaaygargaytt yaayathgtngcngtngcnwsnaayttygcnacnacngayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargt nytnaargaratggargcnaaygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaaratg aaraarttyathccnggnmgntgygcngaytaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathccn garathccnggnttyaargayytngarccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggn ytngcnaaygtncartgywsngayytnytnaaraartggytnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaa rathaarggngcnggnggngayaargaygarytn (nucleotide sequence encoding full-length sequence of Gaussia princeps Prolume KDEL luciferase with RCAD substitution at C₅ and at C₆); [SEQ ID NO: 309] atgggngtnaargtnytnttygcnytnathtgyathgcngtngcngargcnaarccnacngaraayaaygargaytt yaayathgtngcngtngcnwsnaayttygcnacnacngayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargt nytnaargarathgargcnaaygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaaratg aaraarttyathccnggnmgntgygcngaytaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathccn garathccnggnttyaargayytngarccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggn ytngcnaaygtncartgywsngayytnytnaaraartggytnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaa rathaarggngcnggnggngay (nucleotide sequence encoding full-length sequence of Gaussia princeps Mutant 1 luciferase with RCAD substitution at C₅ and at C₆); [SEQ ID NO: 311] atgggngtnaargtnytnttygcnytnathtgyathgcngtngcngargcnaarccnacngaraayaaygargaytt yaayathgtngcngtngcnwsnaayttygcnacnacngayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargt nytnaargarytngargcnaaygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaarat gaaraarttyathccnggnmgntgygcngaytaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathcc ngarathccnggnttyaargayytngarccnytngarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarg gnytngcnaaygtncartgywsngayytnytnaaraartggytnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngay aarathaarggngcnggnggngay (nucleotide sequence encoding full-length sequence of Gaussia princeps Mutant 2 luciferase with RCAD substitution at C₅); [SEQ ID NO: 313] atggargcnaarccnacngaraayaaygargayttyaayathgtngcngtngcnwsnaayttygcnacnacnga yytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargtnytnaargaratggargcnaaygcnmgnaargcnggntg yacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaaratgaaraarttyathccnggnmgntgygcngaytaygarggn gayaargarwsngcncarggnggnathggngargcnathgtngayathccngarathccnggnttyaargayytngarccnatggarcartty athgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtncartgywsngayytnytnaaraartggy tnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaarathaarggngcnggnggngay (nucleotide sequence encoding full-length sequence of Gaussia princeps GS luciferase with RCAD substitution at C₅ and at C₆); [SEQ ID NO: 315] atgggngtnaarytnathttygcngtnytntgygtngcngcngcncargcngcnacnathaaygaraayttygarg ayathgaygtngtngcnathggnggnwsnttygcnytngaygtngaygcnaaymgnggnggncayggnggncayccnggnaaraarat gccnaargargtnytngtngaratggargcnaaygcnaarmgngcnggntgycaymgnggntgyytnathtgyytnwsncayathaartgy acnaaraaratgaaraarttyathccnggnmgntgygcngaytaygarggngayaargaywsngcncarggnggnathggngargarathg tngayatgccngarathccnggnttyaargayaargarccnatggaycarttyathgcncargtngaymgntgygcngaytgyacnacnggnt gyytnaarggnytngcnaaygtncaytgywsngcnytnytnaaraartggytnccnwsnmgntgyaaracnttygcnwsnaarathcarws ncargtngayacnathaarggnytngcnggngaymgn (nucleotide sequence encoding full- length Metridia pacifica 2a luciferase with RCAD substitution at C₅ and at C₆); [SEQ ID NO: 317] atgggngtnaarytnathttygcngtngtntgygtngcngcngcncargcngcnacnathaaygaraayttygarg ayathgayytngtngcnathggnggnwsnttygcnytngaygtngaygcnaaymgnggnggncayggnggncayccnggnaaraarat gccnaargargtnytngtngaratggargcnaaygcnaarmgngcnggntgycaymgnggntgyytnathtgyytnwsncayathaartgy acnaaraaratgaaraarttyathccnggnmgntgygcngaytaygarggngayaargaywsngcncarggnggnathggngargarathg tngayatgccngarathccnggnttyaargayaargarccnatggaycarttyathgcncargtngaymgntgygcngaytgyacnacnggnt gyytnaarggnytngcnaaygtncaytgywsngayytnytnaaraartggytnccnwsnmgntgyaaracnttygcnwsnaarathcarws ncargtngayacnathaarggnytngcnggngaymgn (nucleotide sequence encoding full- length Metridia pacifica 2bv1 luciferase with RCAD substitution at C₅ and at C₆); [SEQ ID NO: 319] atgggngtnaarytnathttygcngtngtntgygtagcngcngcncargcngcnacnathaaygaraayttygarg ayathgayytngtngcnathggnggnwsnttygcnytngaygtngaygcnaaymgnggnggncayggnggncayccnggnaaraarat gccnaargargtnccngtngaratggargcnaaygcnaarmgngcnggntgycaymgnggntgyytnathtgyytnwsncayathaartg yacnaaraaratgaaraarttyathccnggnmgntgygcngaytaygarggngayaargaywsngcncarggnggnathggngargarath gtngayatgccngarathccnggnttyaargayaargarccnatggaycarttyathgcncargtngaymgntgygcngaytgyacnacngg ntgyytnaarggnytngcnaaygtncaytgywsngayytnytnaaraartggytnccnwsnmgntgyaaracnttygcnwsnaarathcar wsncargtngayacnathaarggnytngcnggngaymgn (nucleotide sequence encoding full- length Metridia pacifica 2bv2 luciferase with RCAD substitution at C₅ and at C₆); [SEQ ID NO: 321] atgggngtnaarytnathttygcngtngtntgygtngcngtngcncargcngcnacnathcargaraayttygarga yathgayytngtngcnathggnggnwsnttygcnwsngaygtngaygcnaaymgnggnggncayggnggncayccnggnaaraaratg ccnaargargtnytnatggaratggargcnaaygcnaarmgngcnggntgycaymgnggntgyytngtntgyytnwsncayathaartgya cngcncaratgcaraarttyathccnggnmgntgygcngaytaygcnggngayaargaywsngcncarggnggnathgcnggnggngcn athgtngayathccngarathgcnggnttyaargaratgaarccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacn ggntgyytnaarggnytngcnaaygtncaytgywsngayytnytnaaraartggytnccnwsnmgmtgyaaracnttygcnwsnaarathc arwsncargtngayacnathaarggnytngcnggngaymgn (nucleotide sequence encoding full-length Metridia longa 22 luciferase with RCAD substitution at C₅ and at C₆); [SEQ ID NO: 323] atgatggarathcargtnytnttygcnytnathtgyttygcnytngtncargcnaayccnacngaraayaargayga yathgayathgtnggngtngarggnaarttyggnacnacngayytngaracngayytnttyacnathgtngargayatgaaygtnathwsnm gngayacnaayytngcnaaywsngaygcngaymgnggnaaratgccnggnaaraarytnccnytngargtnytnathgaratggargcna aygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnm gntgygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaarga rytnggnccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgy wsngcnytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcarwsngargtngayaayathaarggnytngcn ggngaymgn (nucleotide sequence encoding full-length Metridia pacifica 1v1 luciferase with RCAD substitution at C₅ and at C₆); [SEQ ID NO: 325] atgatggarathaargtnytnttygcnytnathtgyttygcnytngtncargcnaayccnacngaraayaargayga yathgayathgtnggngtngarggnaarttyggnacnacngayytngaracngayytnttyacnathgtngargayatgaaygtnathwsnm gngayacnaayytngcnaaywsngaygcngaymgnggnaaratgccnggnaaraarytnccnytngargtnytnathgaratggargcna aygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnm gntgygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaarga rytnggnccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgy wsngcnytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcarwsngargtngayaayathaarggnytngcn ggngaymgn (nucleotide sequence encoding full-length Metridia pacifica 1v2 luciferase with RCAD substitution at C₅ and at C₆); [SEQ ID NO: 327] atgatggargtnaargtngtnttygcnytnathtgyttygcnytngtncargcnaayccnacngaraayaargayga yathgayathgtnggngtngarggnaarttyggnacnacngayytngaracngayytnttyacnathgtngargayatgaaygtnathwsnm gngayacnaayytngcnaaywsngaygcngaymgnggnaaratgccnggnaaraarytnccnytngargtnytnathgaratggargcna aygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnm gntgygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaarga rytnggnccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgy wsngcnytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcarwsngargtngayaayathaarggnytngcn ggngaymgn (nucleotide sequence encoding full-length Metridia pacifica 1v3 luciferase with RCAD substitution at C₅ and at C₆); [SEQ ID NO: 329] atggayathaargtnytnttygcnytnathtgyathgcnytngtncargcnaayccnacngaraayaaygaycaya thaayathgtnggnathgarggnaarttyggnathacngayytngaracngayytnttyacnathtgggaracnaaymgnatgathwsnacn gayaaygarcargcnaayacngaywsnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnytnathgaratggargcnaay gcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaaraartayathccnggnmgntg ygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngayathwsnggnttyaargaratg ggnccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsng arytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcarwsngargtncayaayathaarggnytngcnggnga ymgn (nucleotide sequence encoding full-length Metridia longa 39 luciferase with RCAD substitution at C₅ and at C₆); [SEQ ID NO: 331] atggayathaarttyathttygcnytngtntgyathgcnytngtncargcnaayccnacngtnaayaaygaygtnaa ymgnggnaaratgccnggnaaraarytnccnytngargtnytnathgaratggargcnaaygcnttyaargcnggntgyacnmgnggntgy ytnathtgyytnwsnaarathaartgyacngcnaaratgaarcartayathccnggnmgntgygcngaytayggnggngayaaraaracngg ncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargaratggarccnatggarcarttyathgcncargtngay mgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsngarytnytnaaraartggytnccngaymgntgy gcnwsnttygcngayaarathcaraargargcncayaayathaarggnytngcnggngaymgn (nucleotide sequence encoding full-length Metridia longa 7 luciferase with RCAD substitution at C₅ and at C₆); [SEQ ID NO: 333] atgaaracngayathgcngayacngaymgngcnwsnaayttygtngcnacngaracngaygcnaaymgngg naaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaaygcnttyaargcnggntgyacnmgnggntgyytnathtg yytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgntgygcngaytayggnggngayaaraaracnggncargcn ggnathgtnggngcnathgtngayathccngarathwsnggnttyaargaratggcnccnatggarcarttyathgcncargtngaymgntgy gcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsngarytnytnaaraartggytnccngaymgntgygcnwsn ttygcngayaarathcaraargargtncayaayathaarggnatggcnggngaymgn (nucleotide sequence encoding full-length Metridia longa GS luciferase with RCAD substitution at C₅ and at C₆); [SEQ ID NO: 335] atggayathaargtngtnttyacnytngtnttywsngcnytngtncargcncaraaracngayathgcngayacng aymgngcnwsnaayttygtngcnacngaracngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggara tggargcnaaygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathc cnggnmgntgygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggn ttyaargaratggcnccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtn aartgywsngarytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatg gcnggngaymgn (nucleotide sequence encoding full-length Metridia longa 164M3 luciferase with RCAD substitution at C₅ and at C₆); [SEQ ID NO: 337] atggayathaargtngtnttyacnytngtnttywsngcnytngtncargcnaarwsnacngarttygayccnaayat hgayathgtnggnytngarggnaarttyggnathacnaayytngaracngayytnttyacnathtgggaracnatggargtnatgathaargcn gayathgcngayacngaymgngcnwsnaayttygtngcnacngaracngaygcnaaymgnggnaaratgccnggnaaraarytnccnyt ngcngtnathatggaratggargcnaaygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcna aratgaargtntayathccnggnmgntgygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayat hccngarathwsnggnttyaargaratggcnccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytna arggnytngcnaaygtnaartgywsngarytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtn cayaayathaarggnatggcnggngaymgn (nucleotide sequence encoding full-length Metridia longa 164v1 luciferase with RCAD substitution at C₅ and at C₆); [SEQ ID NO: 339] atggayathaargtngtnttyacnytngtnttywsngcnytngtncargcnaarwsnacngarttygayccnaayat hgayathgtnggnytngarggnaarttyggnathacnaayytngaracngayytnttyacnathtgggaracnatggargtnatgathaargcn gayathgcngayacngaymgngcnwsnaayttygtngcnacngaracngaygcnaaymgnggnaaratgccnggnaaraarytnccnyt ngcngtnathatggaratggargcnaaygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcna aratgaargtntayathccnggnmgntgygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayat hccngarathwsnggnttyaargaratggcnccnatggarcarttyathgcncargtngarmgntgygcngaytgyacnacnggntgyytna arggnytngcnaaygtnaartgywsngarytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtn cayaayathaarggnatggcnggngaymgn (nucleotide sequence encoding full-length Metridia longa 164v2 luciferase with RCAD substitution at C₅ and at C₆); [SEQ ID NO: 341] atggayatgaargtnathttygcnytnathttywsngcnytngtncargcnaarwsnacngarttygayccnaayat hgayathgtnggnytngarggnaarttyggnathacnaayytngaracngayytnttyacnathtgggaracnatggargtnathaarwsnga yathgcngayacngaymgngtnwsnaayttygtngcnacngaracngaygcnaaymgnggnaaratgccnggnaaraarytnccnytng cngtnathatggaratggargcnaaygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaar atgaargtntayathccnggnmgntgygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathc cngarathwsnggnttyaargaratggcnccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaar ggnytngcnaaygtnaartgywsngarytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtnca yaayathaarggnatggcnggngaymgn (nucleotide sequence encoding full-length Metridia longa 16 luciferase with RCAD substitution at C₅ and at C₆); [SEQ ID NO: 343] atggayathaargtngtnttygcnytngtnttywsngcnytngtncargcnaarwsnacngarttygayccnaaya thgayathgtnggnytngarggnaarttyggnathacnaayytngaracngayytnttyacnathtgggaracnatggargtnathaaracnga yathgcngayacngaymgngcnmgnwsnttygtngcnacngaracngaygcnaaymgnggnaaratgccnggnaaraarytnccnytn gcngtnathatggaratggargcnaaygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaa ratgaargtntayathccnggnmgntgygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayath ccngarathwsnggnttyaargaratggarccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaar ggnytngcnaaygtnaartgywsngarytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtnca yaayathaarggnatggcnggngaymgn (nucleotide sequence encoding full-length Metridia longa 45 luciferase with RCAD substitution at C₅ and at C₆); [SEQ ID NO: 345] atggayathaargtngtnttygcnytngtnttywsngcnytngtncargcnaarwsnacngarttygayccnaaya thgaygtngtnggnytngarggnaarttyggnathacnaayytngaracngayytnttyacnathtgggaracnatggargtnathaaracnga yathgcngayacngaymgngcnmgnaayttygtngcnacngaracngaygcnaaymgnggnaaratgccnggnaaraarytnccnytn gcngtnathatggaratggargcnaaygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaa ratgaargtntayathccnggnmgntgygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayath ccngarathwsnggnttyaargaratggarccnatggarcarttyathgcncargtngaymgntgygcngaytgyaayacnggntgyytnaar ggnytngcnaaygtnaartgywsngarytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtnca yaayathaarggnatggcnggngaymgn (nucleotide sequence encoding full-length Metridia longa 52 luciferase with RCAD substitution at C₅ and at C₆); [SEQ ID NO: 347] atggayatgmgngtnathttygcnytngtnttywsnwsnytngtncargcnaarwsnacngarttygayccnaay athaayathgtnggnytngarggnaarttyggnathacnaayytngaracngayytnttyacnathtgggaracnatggaygtnathaarwsng ayathacngayacngaymgngtnwsnaayttygtngcnacngaracngaygcnaaymgnggnaaratgccnggnaaraarytnccnytn gcngtnathatggaratggargcnaaygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaa ratgaargtntayathccnggnmgntgygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayath ccngarathwsnggnttyaargaratggcnccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaa rggnytngcnaaygtnaartgywsngarytnytnaaraartggytnccnggnmgntgygcnwsnttygcngayaarathcaraargargtn ayaayathaarggnatggcnggngaymgn (nucleotide sequence encoding full-length Metridia longa AL luciferase with RCAD substitution at C₅ and at C₆); [SEQ ID NO: 349] atgggngtnaargtnytnttygcnytnathtgyathgcngtngcngargcnaarccnacngaraayaaygargaytt yaayathgtngcngtngcnwsnaayttygcnacnacngayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargt nytnaargaratggargcnaaygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaaratg aaraarttyathccnggnmgntgygcngaytaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathccn garathccnggnttyaargayytngarccnatggarcarttyathgcncargtngayytntgygtngaytgyacnacnggntgyytnaarggny tngcnaaygtnaartgywsngayytnytnaaraartggytnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaar athaarggngcnggnggngay (nucleotide sequence encoding full-length sequence of Gaussia princeps Prolume luciferase with RCAD substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 351] atgggngtnaargtnytnttygcnytnathtgyathgcngtngcngargcnaarccnacngaraayaaygargaytt yaayathgtngcngtngcnwsnaayttygcnacnacngayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargt nytnaargaratggargcnaaygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaaratg aaraarttyathccnggnmgntgygcngaytaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathccn garathccnggnttyaargayytngarccnatggarcarttyathgcncargtngayytntgygtngaytgyacnacnggntgyytnaarggny tngcnaaygtnaartgywsngayytnytnaaraartggytnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaar athaarggngcnggnggngayaargaygarytn (nucleotide sequence encoding full-length sequence of Gaussia princeps Prolume KDEL luciferase with RCAD substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 353] atgggngtnaargtnytnttygcnytnathtgyathgcngtngcngargcnaarccnacngaraayaaygargaytt yaayathgtngcngtngcnwsnaayttygcnacnacngayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargt nytnaargarathgargcnaaygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaaratg aaraarttyathccnggnmgntgygcngaytaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathccn garathccnggnttyaargayytngarccnatggarcarttyathgcncargtngayytntgygtngaytgyacnacnggntgyytnaarggny tngcnaaygtnaartgywsngayytnytnaaraartggytnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaar athaarggngcnggnggngay (nucleotide sequence encoding full-length sequence of Gaussia princeps Mutant 1 luciferase with RCAD substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 355] atgggngtnaargtnytnttygcnytnathtgyathgcngtngcngargcnaarccnacngaraayaaygargaytt yaayathgtngcngtngcnwsnaayttygcnacnacngayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargt nytnaargarytngargcnaaygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaarat gaaraarttyathccnggnmgntgygcngaytaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathcc ngarathccnggnttyaargayytngarccnytngarcarttyathgcncargtngayytntgygtngaytgyacnacnggntgyytnaarggn ytngcnaaygtnaartgywsngayytnytnaaraartggytnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaa rathaarggngcnggnggngay (nucleotide sequence encoding full-length sequence of Gaussia princeps Mutant 2 luciferase with RCAD substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 357] atggargcnaarccnacngaraayaaygargayttyaayathgtngcngtngcnwsnaayttygcnacnacnga yytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargtnytnaargaratggargcnaaygcnmgnaargcnggntg yacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaaratgaaraarttyathccnggnmgntgygcngaytaygarggn gayaargarwsngcncarggnggnathggngargcnathgtngayathccngarathccnggnttyaargayytngarccnatggarcartty athgcncargtngayytntgygtngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsngayytnytnaaraartggytn ccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaarathaarggngcnggnggngay (nucleotide sequence encoding full-length sequence of Gaussia princeps GS luciferase with RCAD substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 359] atgggngtnaarytnathttygcngtnytntgygtngcngcngcncargcngcnacnathaaygaraayttygarg ayathgaygtngtngcnathggnggnwsnttygcnytngaygtngaygcnaaymgnggnggncayggnggncayccnggnaaraarat gccnaargargtnytngtngaratggargcnaaygcnaarmgngcnggntgycaymgnggntgyytnathtgyytnwsncayathaartgy acnaaraaratgaaraarttyathccnggnmgntgygcngaytaygarggngayaargaywsngcncarggnggnathggngargarathg tngayatgccngarathccnggnttyaargayaargarccnatggaycarttyathgcncargtngayytntgygtngaytgyacnacnggntg yytnaarggnytngcnaaygtnaartgywsngayytnytnaaraartggytnccnwsnmgntgyaaracnttygcnwsnaarathcarwsn cargtngayacnathaarggnytngcnggngaymgn (nucleotide sequence encoding full- length Metridia pacifica 2a luciferase with RCAD substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 361] atgggngtnaarytnathttygcngtngtntgygtngcngcngcncargcngcnacnathaaygaraayttygarg ayathgayytngtngcnathggnggnwsnttygcnytngaygtngaygcnaaymgnggnggncayggnggncayccnggnaaraarat gccnaargargtnytngtngaratggargcnaaygcnaarmgngcnggntgycaymgnggntgyytnathtgyytnwsncayathaartgy acnaaraaratgaaraarttyathccnggnmgntgygcngaytaygarggngayaargaywsngcncarggnggnathggngargarathg tngayatgccngarathccnggnttyaargayaargarccnatggaycarttyathgcncargtngayytntgygtngaytgyacnacnggntg yytnaarggnytngcnaaygtnaartgywsngayytnytnaaraartggytnccnwsnmgntgyaaracnttygcnwsnaarathcarwsn cargtngayacnathaarggnytngcnggngaymgn (nucleotide sequence encoding full- length Metridia pacifica 2bv1 luciferase with RCAD substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 363] atgggngtnaarytnathttygcngtngtntgygtngcngcngcncargcngcnacnathaaygaraayttygarg ayathgayytngtngcnathggnggnwsnttygcnytngaygtngaygcnaaymgnggnggncayggnggncayccnggnaaraarat gccnaargargtnccngtngaratggargcnaaygcnaamgngcnggntgycaymgnggntgyytnathtgyytnwsncayathaartg yacnaaraaratgaaraarttyathccnggnmgntgygcngaytaygarggngayaargaywsngcncarggnggnathggngargarath gtngayatgccngarathccnggnttyaargayaargarccnatggaycarttyathgcncargtngayytntgygtngaytgyacnacnggnt gyytnaarggnytngcnaaygtnaartgywsngayytnytnaaraartggytnccnwsnmgntgyaaracnttygcnwsnaarathcarws ncargtngayacnathaarggnytngcnggngaymgn (nucleotide sequence encoding full- length Metridia pacifica 2bv2 luciferase with RCAD substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 365] atgggngtnaarytnathttygcngtngtntgygtngcngtngcncargcngcnacnathcargaraayttygarga yathgayytngtngcnathggnggnwsnttygcnwsngaygtngaygcnaaymgnggnggncayggnggncayccnggnaaraaratg ccnaargargtnytnatggaratggargcnaaygcnaarmgngcnggntgycaymgnggntgyytngtntgyytnwsncayathaartgya cngcncaratgcaraarttyathccnggnmgntgygcngaytaygcnggngayaargaywsngcncarggnggnathgcnggnggngcn athgtngayathccngarathgcnggnttyaargaratgaarccnatggarcarttyathgcncargtngayytntgygargaytgyacnacngg ntgyytnaarggnytngcnaaygtnaartgywsngayytnytnaaraartggytnccnwsnmgntgyaaracnttygcnwsnaarathcar wsncargtngayacnathaarggnytngcnggngaymgn (nucleotide sequence encoding full- length Metridia longa 22 luciferase with RCAD substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 367] atgatggarathcargtnytnttygcnytnathtgyttygcnytngtncargcnaayccnacngaraayaargayga yathgayathgtnggngtngarggnaarttyggnacnacngayytngaracngayytnttyacnathgtngargayatgaaygtnathwsnm gngayacnaayytngcnaaywsngaygcngaymgnggnaaratgccnggnaaraarytnccnytngargtnytnathgaratggargcna aygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnm gntgygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaarga rytnggnccnatggarcarttyathgcncargtngayytntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgyws ngayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcarwsngargtngayaayathaarggnytngcnggn gaymgn (nucleotide sequence encoding full-length Metridia pacifica 1v1 luciferase with RCAD substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 369] atgatggarathaargtnytnttygcnytnathtgyttygcnytngtncargcnaayccnacngaraayaargayga yathgayathgtnggngtngarggnaarttyggnacnacngayytngaracngayytnttyacnathgtngargayatgaaygtnathwsnm gngayacnaayytngcnaaywsngaygcngaymgnggnaaratgccnggnaaraarytnccnytngargtnytnathgaratggargcna aygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnm gntgygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaarga rytnggnccnatggarcarttyathgcncargtngayytntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgyws ngayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcarwsngargtngayaayathaarggnytngcnggn gaymgn (nucleotide sequence encoding full-length Metridia pacifica 1v2 luciferase with RCAD substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 371] atgatggargtnaargtngtnttygcnytnathtgyttygcnytngtncargcnaayccnacngaraayaargayga yathgayathgtnggngtngarggnaarttyggnacnacngayytngaracngayytnttyacnathgtngargayatgaaygtnathwsnm gngayacnaayytngcnaaywsngaygcngaymgnggnaaratgccnggnaaraarytnccnytngargtnytnathgaratggargcna aygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnm gntgygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaarga rytnggnccnatggarcarttyathgcncargtngayytntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgyws ngayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcarwsngargtngayaayathaarggnytngcnggn gaymgn (nucleotide sequence encoding full-length Metridia pacifica 1v3 luciferase with RCAD substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 373] atggayathaargtnytnttygcnytnathtgyathgcnytngtncargcnaayccnacngaraayaaygaycaya thaayathgtnggnathgarggnaarttyggnathacngayytngaracngayytnttyacnathtgggaracnaaymgnatgathwsnacn gayaaygarcargcnaayacngaywsnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnytnathgaratggargcnaay gcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaaraartayathccnggnmgntg ygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngayathwsnggnttyaargaratg ggnccnatggarcarttyathgcncargtngaymgntgyacngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsng ayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcarwsngargtncayaayathaarggnytngcnggnga ymgn (nucleotide sequence encoding full-length Metridia longa 39 luciferase with RCAD substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 375] atggayathaarttyathttygcnytngtntgyathgcnytngtncargcnaayccnacngtnaayaaygaygtnaa ymgnggnaaratgccnggnaaraarytnccnytngargtnytnathgaratggargcnaaygcnttyaargcnggntgyacnmgnggntgy ytnathtgyytnwsnaarathaartgyacngcnaaratgaarcartayathccnggnmgntgygcngaytayggnggngayaaraaracngg ncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargaratggarccnatggarcarttyathgcncargtngay ytntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsngayytnytnaaraartggytnccngaymgntgyg cnwsnttygcngayaarathcaraargargcncayaayathaarggnytngcnggngaymgn (nucleotide sequence encoding full-length Metridia longa 7 luciferase with RCAD substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 377] atgaaracngayathgcngayacngaymgngcnwsnaayttygtngcnacngaracngaygcnaaymgngg naaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaaygcnttyaargcnggntgyacnmgnggntgyytnathtg yytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgntgygcngaytayggnggngayaaraaracnggncargcn ggnathgtnggngcnathgtngayathccngarathwsnggnttyaargaratggcnccnatggarcarttyathgcncargtngaymgntgy gcnwsntgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsngayytnytnaaraartggytnccngaymgntgygcnws nttygcngayaarathcaraargargtncayaayathaarggnatggcnggngaymgn (nucleotide sequence encoding full-length Metridia longa GS luciferase with RCAD substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 379] atggayathaargtngtnttyacnytngtnttywsngcnytngtncargcncaraaracngayathgcngayacng aymgngcnwsnaayttygtngcnacngaracngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggara tggargcnaaygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathc cnggnmgntgygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggn ttyaargaratggcnccnatggarcarttyathgcncargtngaymgntgygcnwsntgyacnacnggntgyytnaarggnytngcnaaygt naartgywsngayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggna tggcnggngaymgn (nucleotide sequence encoding full-length Metridia longa 164M3 luciferase with RCAD substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 381] atggayathaargtngtnttyacnytngtnttywsngcnytngtncargcnaarwsnacngarttygayccnaayat hgayathgtnggnytngarggnaarttyggnathacnaayytngaracngayytnttyacnathtgggaracnatggargtnatgathaargcn gayathgcngayacngaymgngcnwsnaayttygtngcnacngaracngaygcnaaymgnggnaaratgccnggnaaraarytnccnyt ngcngtnathatggaratggargcnaaygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcna aratgaargtntayathccnggnmgntgygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayat hccngarathwsnggnttyaargaratggcnccnatggarcarttyathgcncargtngaymgntgygcnwsntgyacnacnggntgyytna arggnytngcnaaygtnaartgywsngayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtn cayaayathaarggnatggcnggngaymgn (nucleotide sequence encoding full-length Metridia longa 164v1 luciferase with RCAD substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 383] atggayathaargtngtnttyacnytngtnttywsngcnytngtncargcnaarwsnacngarttygayccnaayat hgayathgtnggnytngarggnaarttyggnathacnaayytngaracngayytnttyacnathtgggaracnatggargtnatgathaargcn gayathgcngayacngaymgngcnwsnaayttygtngcnacngaracngaygcnaaymgnggnaaratgccnggnaaraarytnccnyt ngcngtnathatggaratggargcnaaygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcna aratgaargtntayathccnggnmgntgygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayat hccngarathwsnggnttyaargaratggcnccnatggarcarttyathgcncargtngarmgntgygcnwsntgyacnacnggntgyytna arggnytngcnaaygtnaartgywsngayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtn cayaayathaarggnatggcnggngaymgn (nucleotide sequence encoding full-length Metridia longa 164v2 luciferase with RCAD substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 385] atggayatgaargtnathttygcnytnathttywsngcnytngtncargcnaarwsnacngarttygayccnaayat hgayathgtnggnytngarggnaarttyggnathacnaayytngaracngayytntryacnathtgggaracnatggargtnathaarwsnga yathgcngayacngaymgngtnwsnaayttygtngcnacngaracngaygcnaaymgnggnaaratgccnggnaaraarytnccnytng cngtnathatggaratggargcnaaygcnttyaargcnggntgyacnrngnggntgyytnathtgyytnwsnaarathaartgyacngcnaar atgaargtntayathccnggnmgntgygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathc cngarathwsnggnttyaargaratggcnccnatggarcarttyathgcncargtngaymgntgyacnwsntgyacnacnggntgyytnaar ggnytngcnaaygtnaartgywsngayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtnca yaayathaarggnatggcnggngaymgn (nucleotide sequence encoding full-length Metridia longa 16 luciferase with RCAD substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 387] atggayathaargtngtnttygcnytngtnttywsngcnytngtncargcnaarwsnacngarttygayccnaaya thgayathgtnggnytngarggnaarttyggnathacnaayytngaracngayytnttyacnathtgggaracnatggargtnathaaracnga yathgcngayacngaymgngcnmgnwsnttygtngcnacngaracngaygcnaaymgnggnaaratgccnggnaaraarytnccnytn gcngtnathatggaratggargcnaaygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaa ratgaargtntayathccnggnmgntgygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayath ccngarathwsnggnttyaargaratggarccnatggarcarttyathgcncargtngaymgntgygcnwsntgyacnacnggntgyytnaa rggnytngcnaaygtnaartgywsngayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtnc ayaayathaarggnatggcnggngaymgn (nucleotide sequence encoding full-length Metridia longa 45 luciferase with RCAD substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 389] atggayathaargtngtnttygcnytngtnttywsngcnytngtncargcnaarwsnacngarttygayccnaaya thgaygtngtnggnytngarggnaarttyggnathacnaayytngaracngayytnttyacnathtgggaracnatggargtnathaaracnga yathgcngayacngaymgngcnmgnaayttygtngcnacngaracngaygcnaaymgnggnaaratgccnggnaaraarytnccnytn gcngtnathatggaratggargcnaaygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaa ratgaargtntayathccnggnmgntgygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayath ccngarathwsnggnttyaargaratggarccnatggarcarttyathgcncargtngaymgntgygcnwsntgyaayacnggntgyytnaa rggnytngcnaaygtnaartgywsngayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtnc ayaayathaarggnatggcnggngaymgn (nucleotide sequence encoding full-length Metridia longa 52 luciferase with RCAD substitution at C₅ and with KCSD substitution at C₉) [SEQ ID NO: 391] atggayatgmgngtnathttygcnytngtnttywsnwsnytngtncargcnaarwsnacngarttygayccnaay athaayathgtnggnytngarggnaarttyggnathacnaayytngaracngayytnttyacnathtgggaracnatggaygtnathaarwsng ayathacngayacngaymgngtnwsnaaytrygtngcnacngaracngaygcnaaymgnggnaaratgccnggnaaraarytnccnytn gcngtnathatggaratggargcnaaygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaa ratgaargtntayathccnggnmgntgygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayath ccngarathwsnggnttyaargaratggcnccnatggarcarttyathgcncargtngayytntgygcnacntgyacnacnggntgyytnaarg gnytngcnaaygtnaartgywsngayytnytnaaraartggytnccnggnmgntgygcnwsnttygcngayaarathcaraargargtnca yaayathaarggnatggcnggngaymgn (nucleotide sequence encoding full-length Metridia longa AL luciferase with RCAD substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 393] atgggngtnaargtnytnttygcnytnathtgyathgcngtngcngargcnaarccnacngaraayaaygargaytt yaayathgtngcngtngcnwsnaayttygcnacnacngayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargt nytnaargaratggargcnaaygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaaratg aaraarttyathccnggnmgntgycayacntaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathccng arathccnggnttyaargayymgarccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggny tngcnaaygtnaartgywsngayytnytnaaraartggytnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaar athaarggngcnggnggngay (nucleotide sequence encoding full-length sequence of Gaussia princeps Prolume luciferase with RCAD substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 395] atgggngtnaargtnytnttygcnytnathtgyathgcngtngcngargcnaarccnacngaraayaaygargaytt yaayathgtngcngtngcnwsnaayttygcnacnacngayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargt nytnaargaratggargcnaaygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaaratg aaraarttyathccnggnmgntgycayacntaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathccng arathccnggnttyaargayytngarccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggny tngcnaaygtnaartgywsngayytnytnaaraartggytnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaar athaarggngcnggnggngayaargaygarytn (nucleotide sequence encoding full-length sequence of Gaussia princeps Prolume KDEL luciferase with RCAD substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 397] atgggngtnaargtnytnttygcnytnathtgyathgcngtngcngargcnaarccnacngaraayaaygargaytt yaayathgtngcngtngcnwsnaaytrygcnacnacngayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargt nytnaargarathgargcnaaygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaaratg aaraarttyathccnggnmgntgycayacntaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathccng arathccnggnttyaargayytngarccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggny tngcnaaygtnaartgywsngayytnytnaaraartggytnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaar athaarggngcnggnggngay (nucleotide sequence encoding full-length sequence of Gaussia princeps Mutant 1 luciferase with RCAD substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 399] atgggngtnaargtnytnttygcnytnathtgyathgcngtngcngargcnaarccnacngaraayaaygargaytt yaayathgtngcngtngcnwsnaayttygcnacnacngayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargt nytnaargarytngargcnaaygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaarat gaaraarttyathccnggnmgntgycayacntaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathccn garathccnggnrryaargayytngarccnytngarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaargg nytngcnaaygtnaartgywsngayytnytnaaraartggytnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngaya arathaarggngcnggnggngay (nucleotide sequence encoding full-length sequence of Gaussia princeps Mutant 2 luciferase with RCAD substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 401] atggargcnaarccnacngaraayaaygargayttyaayathgtngcngtngcnwsnaayttygcnacnacnga yytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargtnytnaargaratggargcnaaygcnmgnaargcnggntg yacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaaratgaaraarttyathccnggnrngntgycayacntaygarggn gayaargarwsngcncarggnggnathggngargcnathgtngayathccngarathccnggnrtyaargayytngarccnatggarcartty athgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsngayytnytnaaraartggy tnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaarathaarggngcnggnggngay (nucleotide sequence encoding full-length sequence of Gaussia princeps GS luciferase with RCAD substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 403] atgggngtnaarytnathttygcngtnytntgygtngcngcngcncargcngcnacnathaaygaraayttygarg ayathgaygtngtngcnathggnggnwsnttygcnytngaygtngaygcnaaymgnggnggncayggnggncayccnggnaaraarat gccnaargargtnytngtngaratggargcnaaygcnaarmgngcnggntgycaymgnggntgyytnathtgyytnwsncayathaartgy acnaaraaratgaaraarttyathccnggnmgntgycaywsntaygarggngayaargaywsngcncarggnggnathggngargarathg tngayatgccngarathccnggnttyaargayaargarccnatggaycarttyathgcncargtngaymgntgygcngaytgyacnacnggnt gyytnaarggnytngcnaaygtnaartgywsngayytnytnaaraartggytnccnwsnmgntgyaaracnttygcnwsnaarathcarws ncargtngayacnathaarggnytngcnggngaymgn (nucleotide sequence encoding full- length Metridia pacifica 2a luciferase with RCAD substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 405] atgggngtnaarytnathttygcngtngtntgygtngcngcngcncargcngcnacnathaaygaraayttygarg ayathgayytngtngcnathggnggnwsnttygcnytngaygtngaygcnaaymgnggnggncayggnggncayccnggnaaraarat gccnaargargtnytngtngaratggargcnaaygcnaarmgngcnggntgycaymgnggntgyytnathtgyytnwsncayathaartgy acnaaraaratgaaraarttyathccnggnmgntgycaywsntaygarggngayaargaywsngcncarggnggnathggngargarathg tngayatgccngarathccnggnttyaargayaargarccnatggaycarttyathgcncargtngaymgntgygcngaytgyacnacnunt gyytnaarggnytngcnaaygtnaartgywsngayytnytnaaraartggytnccnwsnmgntgyaaracnttygcnwsnaarathcarws ncargtngayacnathaarggnytngcnggngaymgn (nucleotide sequence encoding full- length Metridia pacifica 2bv1 luciferase with RCAD substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 407] atgggngtnaarytnathttygcngtngtntgygtngcngcngcncargcngcnacnathaaygaraayttygarg ayathgayytngtngcnathggnggnwsnttygcnytngaygtngaygcnaaymgnggnggncayggnggncayccnggnaaraarat gccnaargargtnccngtngaratggargcnaaygcnaarmgngcnggntgycaymgnggntgyytnathtgyytnwsncayathaartg yacnaaraaratgaaraarttyathccnggnmgntgycaywsntaygarggngayaargaywsngcncarggnggnathggngargarath gtngayatgccngarathccnggnttyaargayaargarccnatggaycarttyathgcncargtngaymgntgygcngaytgyacnacngg ntgyytnaarggnytngcnaaygtnaartgywsngayytnytnaaraartggytnccnwsnmgntgyaaracnttygcnwsnaarathcar wsncargtngayacnathaarggnytngcnggngaymgn (nucleotide sequence encoding full- length Metridia pacifica 2bv2 luciferase with RCAD substitution at C₆ and with KCSD  substitution at C₉); [SEQ ID NO: 409] atgggngtnaarytnathttygcngtngtntgygtngcngtngcncargcngcnacnathcargaraayttygarga yathgayytngtngcnathggnggnwsnttygcnwsngaygtngaygcnaaymgnggnggncayggnggncayccnggnaaraaratg ccnaargargtnytnatggaratggargcnaaygcnaarmgngcnggntgycaymgnggntgyytngtntgyytnwsncayathaartgya cngcncaratgcaraarttyathccnggnmgntgycaywsntaygcnggngayaargaywsngcncarggnggnathgcnggnggngcn athgtngayathccngarathgcnggnttyaargaratgaarccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacn ggntgyytnaarggnytngcnaaygtnaartgywsngayytnytnaaraartggytnccnwsnmgntgyaaracnttygcnwsnaarathc arwsncargtngayacnathaarggnytngcnggngaymgn (nucleotide sequence encoding full-length Metridia longa 22 luciferase with RCAD substitution at C₆ and with KCSD  substitution at C₉); [SEQ ID NO: 411] atgatggarathcargtnytnttygcnytnathtgyttygcnytngtncargcnaayccnacngaraayaargayga yathgayathgtnggngtngarggnaarttyggnacnacngayytngaracngayytnttyacnathgtngargayatgaaygtnathwsnm gngayacnaayytngcnaaywsngaygcngaymgnggnaaratgccnggnaaraarytnccnytngargtnytnathgaratggargcna aygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnm gntgycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaarga rytnggnccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgy wsngayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcarwsngargtngayaayathaarggnytngcn ggngaymgn (nucleotide sequence encoding full-length Metridia pacifica 1v1 luciferase with RCAD substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 413] atgatggarathaargtnytnttygcnytnathtgyttygcnytngtncargcnaayccnacngaraayaargayga yathgayathgtnggngtngarggnaarttyggnacnacngayytngaracngayytnttyacnathgtngargayatgaaygtnathwsnm gngayacnaayytngcnaaywsngaygcngaymgnggnaaratgccnggnaaraarytnccnytngargtnytnathgaratggargcna aygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnm gntgycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaarga rytnggnccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnyngcnaaygtnaartgy wsngayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcarwsngargtngayaayathaarggnytngcn ggngaymgn (nucleotide sequence encoding full-length Metridia pacifica 1v2 luciferase with RCAD substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 415] atgatggargtnaargtngtnttygcnytnathtgyttygcnytngtncargcnaayccnacngaraayaargayga yathgayathgtnggngtngarggnaarttyggnacnacngayytngaracngayytnttyacnathgtngargayatgaaygtnathwsnm gngayacnaayytngcnaaywsngaygcngaymgnggnaaratgccnggnaaraarytnccnytngargtnytnathgaratggargcna aygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnm gntgycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaarga rytnggnccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgy wsngayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcarwsngargtngayaayathaarggnytngcn ggngaymgn (nucleotide sequence encoding full-length Metridia pacifica 1v3 luciferase with RCAD substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 417] atggayathaargtnytnttygcnytnathtgyathgcnytngtncargcnaayccnacngaraayaaygaycaya thaayathgtnggnathgarggnaarttyggnathacngayytngaracngayytnttyacnathtgggaracnaaymgnatgathwsnacn gayaaygarcargcnaayacngaywsnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnytnathgaratggargcnaay gcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaaraartayathccnggnmgntg ycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngayathwsnggnttyaargaratg ggnccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsng ayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcarwsngargtncayaayathaarggnytngcnggnga ymgn (nucleotide sequence encoding full-length Metridia longa 39 luciferase with RCAD substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 419] atggayathaarttyathttygcnytngtntgyathgcnytngtncargcnaayccnacngtnaayaaygaygtnaa ymgnggnaaratgccnggnaaraarytnccnytngargtnytnathgaratggargcnaaygcnttyaargcnggntgyacnmgnggntgy ytnathtgyytnwsnaarathaartgyacngcnaaratgaarcartayathccnggnmgntgycaygaytayggnggngayaaraaracngg ncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargaratggarccnatggarcarttyathgcncargtngay mgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsngayytnytnaaraartggytnccngaymgntgy gcnwsnttygcngayaarathcaraargargcncayaayathaarggnytngcnggngaymgn (nucleotide sequence encoding full-length Metridia longa 7 luciferase with RCAD substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 421] atgaaracngayathgcngayacngaymgngcnwsnaayttygtngcnacngaracngaygcnaaymgngg naaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaaygcnttyaargcnggntgyacnmgnggntgyytnathtg yytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgntgycaygaytayggnggngayaaraaracnggncargcn ggnathgtnggngcnathgtngayathccngarathwsnggnttyaargaratggcnccnatggarcarttyathgcncargtngaymgntgy gcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsngayytnytnaaraartggytnccngaymgntgygcnwn ttygcngayaarathcaraargargtncayaayathaarggnatggcnggngaymgn (nucleotide sequence encoding full-length Metridia longa GS luciferase with RCAD substitution at C₆ and  with KCSD substitution at C₉); [SEQ ID NO: 423] atggayathaargtngtnttyacnytngtnttywsngcnytngtncargcncaraaracngayathgcngayacng aymgngcnwsnaayttygtngcnacngaracngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggara tggargcnaaygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathc cnggnmgntgycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggn ttyaargaratggcnccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtn aartgywsngayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnat ggcnggngaymgn (nucleotide sequence encoding full-length Metridia longa 164M3 luciferase with RCAD substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 425] atggayathaargtngtnttyacnytngtnttywsngcnytngtncargcnaarwsnacngarttygayccnaayat hgayathgtnggnytngarggnaarttyggnathacnaayytngaracngayytnttyacnathtgggaracnatggargtnatgathaargcn gayathgcngayacngaymgngcnwsnaayttygtngcnacngaracngaygcnaaymgnggnaaratgccnggnaaraarytnccnyt ngcngtnathatggaratggargcnaaygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcna aratgaargtntayathccnggnmgntgycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayat hccngarathwsnggnttyaargaratggcnccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytna arggnytngcnaaygtnaartgywsngayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtn cayaayathaarggnatggcnggngaymgn (nucleotide sequence encoding full-length Metridia longa 164v1 luciferase with RCAD substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 427] atggayathaargtngtnttyacnytngtnttywsngcnytngtncargcnaarwsnacngarttygayccnaayat hgayathgtnggnytngarggnaarttyggnathacnaayytngaracngayytnttyacnathtgggaracnatggargtnatgathaargcn gayathgcngayacngaymgngcnwsnaayttygtngcnacngaracngaygcnaaymgnggnaaratgccnggnaaraarytnccnyt ngcngtnathatggaratggargcnaaygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcna aratgaargtntayathccnggnmgntgycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayat hccngarathwsnggnttyaargaratggcnccnatggarcarttyathgcncargtngarmgntgygcngaytgyacnacnggntgyytna arggnytngcnaaygtnaartgywsngayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtn cayaayathaarggnatggcnggngaymgn (nucleotide sequence encoding full-length Metridia longa 164v2 luciferase with RCAD substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 429] atggayatgaargtnathttygcnytnathttywsngcnytngtncargcnaarwsnacngarttygayccnaayat hgayathgtnggnytngarggnaarttyggnathacnaayytngaracngayytnttyacnathtgggaracnatggargtnathaarwsnga yathgcngayacngaymgngtnwsnaayttygtngcnacngaracngaygcnaaymgnggnaaratgccnggnaaraarytnccnytng cngtnathatggaratggargcnaaygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaar atgaargtntayathccnggnmgntgycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathc cngarathwsnggnttyaargaratggcnccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaar ggnytngcnaaygtnaartgywsngayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtnca yaayathaarggnatggcnggngaymgn (nucleotide sequence encoding full-length Metridia longa 16 luciferase with RCAD substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 431] atggayathaargtngtnttygcnytngtnttywsngcnytngtncargcnaarwsnacngarttygayccnaaya thgayathgtnggnytngarggnaarttyggnathacnaayytngaracngayytnttyacnathtgggaracnatggargtnathaaracnga yathgcngayacngaymgngcnmgnwsnttygtngcnacngaracngaygcnaaymgnggnaaratgccnggnaaraarytnccnytn gcngtnathatggaratggargcnaaygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaa ratgaargtntayathccnggnmgntgycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayath ccngarathwsnggnttyaargaratggarccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaar ggnytngcnaaygtnaartgywsngayytnytnaaraartggartnccngaymgntgygcnwsnttygcngayaarathcaraargargtnca yaayathaarggnatggcnggngaymgn (nucleotide sequence encoding full-length Metridia longa 45 luciferase with RCAD substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 433] atggayathaargtngtnttygcnytngtnttywsngcnytngtncargcnaarwsnacngarttygayccnaaya thgaygtngtnggnytngarggnaarttyggnathacnaayytngaracngayytnttyacnathtgggaracnatggargtnathaaracnga yathgcngayacngaymgngcnmgnaayttygtngcnacngaracngaygcnaaymgnggnaaratgccnggnaaraarytnccnytn gcngtnathatggaratggargcnaaygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaa ratgaargtntayathccnggnmgntgycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayath ccngarathwsnggnttyaargaratggarccnatggarcarttyathgcncargtngaymgntgygcngaytgyaayacnggntgyytnaar ggnytngcnaaygtnaartgywsngayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtnca yaayathaarggnatggcnggngaymgn (nucleotide sequence encoding full-length Metridia longa 52 luciferase with RCAD substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 435] atggayatgmgngtnathttygcnytngtnttywsnwsnytngtncargcnaarwsnacngarttygayccnaay athaayathgtnggnytngarggnaarttyggnathacnaayytngaracngayytnttyacathtgggaracnatggaygtnathaarwsng ayathacngayacngaymgngtnwsnaayttygtngcnacngaracngaygcnaaymgnggnaaratgccnggnaaraarytnccnytn gcngtnathatggaratggargcnaaygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaa ratgaargtntayathccnggnmgntgycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayath ccngarathwsnggnttyaargaratggcnccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaa rggnytngcnaaygtnaartgywsngayytnytnaaraartggytnccnggnmgntgygcnwsnttygcngayaarathcaraargargtnc ayaayathaarggnatggcnggngaymgn (nucleotide sequence encoding full-length Metridia longa AL luciferase with RCAD substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 437] atgggngtnaargtnytnttygcnytnathtgyathgcngtngcngargcnaarccnacngaraayaaygargaytt yaayathgtngcngtngcnwsnaayttygcnacnacngayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargt nytnaargaratggargcnaaygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaaratg aaraarttyathccnggnmgntgygcngaytaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathccn garathccnggnttyaargayytngarccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggn ytngcnaaygtnaartgywsngayytnytnaaraartggytnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaa rathaarggngcnggnggngay (nucleotide sequence encoding full-length sequence of Gaussia princeps Prolume luciferase with RCAD substitution at C₅ and at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 439] atgggngtnaargtnytnttygcnytnathtgyathgcngtngcngargcnaarccnacngaraayaaygargaytt yaayathgtngcngtngcnwsnaayttygcnacnacngayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargt nytnaargaratggargcnaaygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaaratg aaraarttyathccnggnmgntgygcngaytaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathccn garathccnggnttyaargayytngarccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggn ytngcnaaygtnaartgywsngayytnytnaaraartggytnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaa rathaarggngcnggnggngayaargaygarytn (nucleotide sequence encoding full-length sequence of Gaussia princeps Prolume KDEL luciferase with RCAD substitution at C₅ and at C₆  and with KCSD substitution at C₉); [SEQ ID NO: 441] atgggngtnaargtnytnttygcnytnathtgyathgcngtngcngargcnaarccnacngaraayaaygargaytt yaayathgtngcngtngcnwsnaayttygcnacnacngayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargt nytnaargarathgargcnaaygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaaratg aaraarttyathccnggnmgntgygcngaytaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathccn garathccnggnttyaargayytngarccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggn ytngcnaaygtnaartgywsngayytnytnaaraartggytnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaa rathaarggngcnggnggngay (nucleotide sequence encoding full-length sequence of Gaussia princeps Mutant 1 luciferase with RCAD substitution at C₅ and at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 443] atgggngtnaargtnytnttygcnytnathtgyathgcngtngcngargcnaarccnacngaraayaaygargaytt yaayathgtngcngtngcnwsnaayttygcnacnacngayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargt nytnaargarytngargcnaaygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaarat gaaraarttyathccnggnmgntgygcngaytaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathcc ngarathccnggnttyaargayytngarccnytngarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarg gnytngcnaaygtnaartgywsngayytnytnaaraartggytnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngay aarathaarggngcnggnggngay (nucleotide sequence encoding full-length sequence of Gaussia princeps Mutant 2 luciferase with RCAD substitution at C₅ and with KCSD substitution  at C₉); [SEQ ID NO: 445] atggargcnaarccnacngaraayaaygargayttyaayathgtngcngtngcnwsnaayttygcnacnacnga yytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargtnytnaargaratggargcnaaygcnmgnaargcnggntg yacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaaratgaaraarttyathccnggnmgntgygcngaytaygarggn gayaargarwsngcncarggnggnathggngargcnathgtngayathccngarathccnggnttyaargayytngarccnatggarcartty athgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsngayytnytnaaraatggy tnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaarathaarggngcnggnggngay (nucleotide sequence encoding full-length sequence of Gaussia princeps GS luciferase with RCAD substitution at C₅ and at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 447] atgggngtnaarytnathttygcngtnytntgygtngcngcngcncargcngcnacnathaaygaraayttygarg ayathgaygtngtngcnathggnggnwsnttygcnytngaygtngaygcnaaymgnggnggncayggnggncayccnggnaaraarat gccnaargargtnytngtngaratggargcnaaygcnaarmgngcnggntgycaymgnggntgyytnathtgyytnwsncayathaartgy acnaaraaratgaaraarttyathccnggnmgntgygcngaytaygarggngayaargaywsngcncarggnggnathggngargarathg tngayatgccngarathccnggnttyaargayaargarccnatggaycarttyathgcncargtngaymgntgygcngaytgyacnacnggnt gyytnaarggnytngcnaaygtnaartgywsngayytnytnaaraartggytnccnwsnmgntgyaaracnttygcnwsnaarathcarws ncargtngayacnathaarggnytngcnggngaymgn (nucleotide sequence encoding full- length Metridia pacifica 2a luciferase with RCAD substitution at C₅ and at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 449] atgggngtnaarytnathttygcngtngtntgygtngcngcngcncargcngcnacnathaaygaraayttygarg ayathgayytngtngcnathggnggnwsnttygcnytngaygtngaygcnaaymgnggnggncayggnggncayccnggnaaraarat gccnaargargtnytngtngaratggargcnaaygcnaarmgngcnggntgycaymgnggntgyytnathtgyytnwsncayathaartgy acnaaraaratgaaraarttyathccnggnmgntgygcngaytaygarggngayaargaywsngcncarggnggnathggngargarathg tngayatgccngarathccnggnttyaargayaargarccnatggaycarttyathgcncargtngaymgntgygcngaytgyacnacnggnt gyytnaarggnytngcnaaygtnaartgywsngayytnytnaaraartggytnccnwsnmgntgyaaracnttygcnwsnaarathcarws ncargtngayacnathaarggnytngcnggngaymgn (nucleotide sequence encoding full- length Metridia pacifica 2bv1 luciferase with RCAD substitution at C₅ and at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 451] atgggngtnaarytnathttygcngtngtntgygtngcngcngcncargcngcnacnathaaygaraayttygarg ayathgayytngtngcnathggnggnwsnttygcnytngaygtngaygcnaaymgnggnggncayggnggncayccnggnaaraarat gccnaargargtnccngtngaratggargcnaaygcnaarmgngcnggntgycaymgnggntgyytnathtgyytnwsncayathaartg yacnaaraaratgaaraarttyathccnggnmgntgygcngaytaygarggngayaargaywsngcncarggnggnathggngargarath gtngayatgccngarathccnggnttyaargayaargarccnatggaycarttyathgcncargtngaymgntgygcngaytgyacnacngg ntgyytnaarggnytngcnaaygtnaartgywsngayytnytnaaraartggytnccnwsnmgntgyaaracnttygcnwsnaarathcar wsncargtngayacnathaarggnytngcnggngaymgn (nucleotide sequence encoding full- length Metridia pacifica 2bv2 luciferase with RCAD substitution at C₅ and at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 453] atgggngtnaarytnathttygcngtngtntgygtngcngtngcncargcngcnacnathcargaraayttygarga yathgayytngtngcnathggnggnwsnttygcnwsngaygtngaygcnaaymgnggnggncayggnggncayccnggnaaraaratg ccnaargargtnytnatggaratggargcnaaygcnaarmgngcnggntgycaymgnggntgyytngtntgyytnwsncayathaartgya cngcncaratgcaraarttyathccnggnmgntgygcngaytaygcnggngayaargaywsngcncarggnggnathgcnggnggngcn athgtngayathccngarathgcnggnttyaargaratgaarccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacn ggntgyytnaarggnytngcnaaygtnaartgywsngayytnytnaaraartggytnccnwsnmgntgyaaracnttygcnwsnaarathc arwsncargtngayacnathaarggnytngcnggngaymgn (nucleotide sequence encoding full-length Metridia longa 22 luciferase with RCAD substitution at C₅ and at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 455] atgatggarathcargtnytnttygcnytnathtgyttygcnytngtncargcnaayccnacngaraayaargayga yathgayathgtnggngtngarggnaarttyggnacnacngayytngaracngayytnttyacnathgtngargayatgaaygtnathwsnm gngayacnaayytngcnaaywsngaygcngaymgnggnaaratgccnggnaaraarytnccnytngargtnytnathgaratggargcna aygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnm gntgygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaarga rytnggnccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgy wsngayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcarwsngargtngayaayathaarggnytngcn ggngaymgn (nucleotide sequence encoding full-length Metridia pacifica 1v1 luciferase with RCAD substitution at C₅ and at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 457] atgatggarathaargtnytnttygcnytnathtgyttygcnytngtncargcnaayccnacngaraayaargayga yathgayathgtnggngtngarggnaarttyggnacnacngayytngaracngayytnttyacnathgtngargayatgaaygtnathwsnm gngayacnaayytngcnaaywsngaygcngaymgnggnaaratgccnggnaaraarytnccnytngargtnytnathgaratggargcna aygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnm gntgygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaarga rytnggnccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgy wsngayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcarwsngargtngayaayathaarggnytngcn ggngaymgn (nucleotide sequence encoding full-length Metridia pacifica 1v2 luciferase with RCAD substitution at C₅ and at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 459] atgatggargtnaargtngtnttygcnytnathtgyttygcnytngtncargcnaayccnacngaraayaargayga yathgayathgtnggngtngarggnaarttyggnacnacngayytngaracngayytnttyacnathgtngargayatgaaygtnathwsnm gngayacnaayytngcnaaywsngaygcngaymgnggnaaratgccnggnaaraarytnccnytngargtnytnathgaratggargcna aygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnm gntgygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaarga rytnggnccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgy wsngayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcarwsngargtngayaayathaarggnytngcn ggngaymgn (nucleotide sequence encoding full-length Metridia pacifica 1v3 luciferase with RCAD substitution at C₅ and at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 461] atggayathaargtnytnttygcnytnathtgyathgcnytngtncargcnaayccnacngaraayaaygaycaya thaayathgtnggnathgarggnaarttyggnathacngayytngaracngayytnttyacnathtgggaracnaaymgnatgathwsnacn gayaaygarcargcnaayacngaywsnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnytnathgaratggargcnaay gcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaaraartayathccnggnmgntg ygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngayathwsnggnttyaargaratg ggnccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsng ayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcarwsngargtncayaayathaarggnytngcnggnga ymgn (nucleotide sequence encoding full-length Metridia longa 39 luciferase with RCAD substitution at C₅ and at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 463] atggayathaarttyathttygcnytngtntgyathgcnytngtncargcnaayccnacngtnaayaaygaygtnaa ymgnggnaaratgccnggnaaraarytnccnytngargtnytnathgaratggargcnaaygcnttyaargcnggntgyacnmgnggntgy ytnathtgyytnwsnaarathaartgyacngcnaaratgaarcartayathccnggnmgntgygcngaytayggnggngayaaraaracngg ncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargaratggarccnatggarcarttyathgcncargtngay mgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsngayytnytnaaraartggytnccngaymgntgy gcnwsnttygcngayaarathcaraargargcncayaayathaarggnytngcnggngaymgn (nucleotide sequence encoding full-length Metridia longa 7 luciferase with RCAD substitution at C₅  and at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 465] atgaaracngayathgcngayacngaymgngcnwsnaayttygtngcnacngaracngaygcnaaymgngg naaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaaygcnttyaargcnggntgyacnmgnggntgyytnathtg yytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgntgygcngaytayggnggngayaaraaracnggncargcn ggnathgtnggngcnathgtngayathccngarathwsnggnttyaargaratggcnccnatggarcarttyathgcncargtngaymgntgy gcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsngayytnytnaaraartggytnccngaymgntgygcnwsn ttygcngayaarathcaraargargtncayaayathaarggnatggcnggngaymgn (nucleotide sequence encoding full-length Metridia longa GS luciferase with RCAD substitution at C₅ and at  C₆ and with KCSD substitution at C₉); [SEQ ID NO: 467] atggayathaargtngtnttyacnytngtnttywsngcnytngtncargcncaraaracngayathgcngayacng aymgngcnwsnaayttygtngcnacngaracngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggara tggargcnaaygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathc cnggnmgntgygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggn ttyaargaratggcnccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtn aartgywsngayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnat ggcnggngaymgn (nucleotide sequence encoding full-length Metridia longa 164M3 luciferase with RCAD substitution at C₅ and at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 469] atggayathaargtngtnttyacnytngtnttywsngcnytngtncargcnaarwsnacngarttygayccnaayat hgayathgtnggnytngarggnaarttyggnathacnaayytngaracngayytnttyacnathtgggaracnatggargtnatgathaargcn gayathgcngayacngaymgngcnwsnaayttygtngcnacngaracngaygcnaaymgnggnaaratgccnggnaaraarytnccnyt ngcngtnathatggaratggargcnaaygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcna aratgaargtntayathccnggnmgntgygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayat hccngarathwsnggnttyaargaratggcnccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytna arggnytngcnaaygtnaartgywsngayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtn cayaayathaarggnatggcnggngaymgn (nucleotide sequence encoding full-length Metridia longa 164v1 luciferase with RCAD substitution at C₅ and at C₆ and with KCSD  substitution at C₉); [SEQ ID NO: 471] atggayathaargtngtnttyacnytngtnttywsngcnytngtncargcnaarwsnacngarttygayccnaayat hgayathgtnggnytngarggnaarttyggnathacnaayytngaracngayytnttyacnathtgggaracnatggargtnatgathaargcn gayathgcngayacngaymgngcnwsnaayttygtngcnacngaracngaygcnaaymgnggnaaratgccnggnaaraarytnccnyt ngcngtnathatggaratggargcnaaygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcna aratgaargtntayathccnggnmgntgygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayat hccngarathwsnggnttyaargaratggcnccnatggarcarttyathgcncargtngarmgntgygcngaytgyacnacnggntgyytna arggnytngcnaaygtnaartgywsngayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtn cayaayathaarggnatggcnggngaymgn (nucleotide sequence encoding full-length Metridia longa 164v2 luciferase with RCAD substitution at C₅ and at C₆ and with KCSD  substitution at C₉); [SEQ ID NO: 473] atggayatgaargtnathttygcnytnathttywsngcnytngtncargcnaarwsnacngarttygayccnaayat hgayathgtnggnytngarggnaarttyggnathacnaayytngaracngayytnttyacnathtgggaracnatggargtnathaarwsnga yathgcngayacngaymgngtnwsnaayttygtngcnacngaracngaygcnaaymgnggnaaratgccnggnaaraarytnccnytng cngtnathatggaratggargcnaaygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaar atgaargtntayathccnggnmgntgygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathc cngarathwsnggnttyaargaratggcnccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaar ggnytngcnaaygtnaartgywsngayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtnca yaayathaarggnatggcnggngaymgn (nucleotide sequence encoding full-length Metridia longa 16 luciferase with RCAD substitution at C₅ and at C₆ and with KCSD substitution  at C₉); [SEQ ID NO: 475] atggayathaargtngtnttygcnytngtnttywsngcnytngtncargcnaarwsnacngarttygayccnaaya thgayathgtnggnytngarggnaarttyggnathacnaayytngaracngayytnttyacnathtgggaracnatggargtnathaaracnga yathgcngayacngaymgngcnmgnwsnttygtngcnacngaracngaygcnaaymgnggnaaratgccnggnaaraarytnccnytn gcngtnathatggaratggargcnaaygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaa ratgaargtntayathccnggnmgntgygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayath ccngarathwsnggnttyaargaratggarccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaar ggnytngcnaaygtnaartgywsngayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtnca yaayathaarggnatggcnggngaymgn (nucleotide sequence encoding full-length Metridia longa 45 luciferase with RCAD substitution at C₅ and at C₆ and with KCSD substitution  at C₉); [SEQ ID NO: 477] atggayathaargtngtnttygcnytngtnttywsngcnytngtncargcnaarwsnacngarttygayccnaaya thgaygtngtnggnytngarggnaarttyggnathacnaayytngaracngayytnttyacnathtgggaracnatggargtnathaaracnga yathgcngayacngaymgngcnmgnaayttygtngcnacngaracngaygcnaaymgnggnaaratgccnggnaaraarytnccnytn gcngtnathatggaratggargcnaaygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaa ratgaargtntayathccnggnmgntgygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayath ccngarathwsnggnttyaargaratggarccnatggarcarttyathgcncargtngaymgntgygcngaytgyaayacnggntgyytnaar ggnytngcnaaygtnaartgywsngayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtnca yaayathaarggnatggcnggngaymgn (nucleotide sequence encoding full-length Metridia longa 52 luciferase with RCAD substitution at C₅ and at C₆ and with KCSD substitution  at C₉),or [SEQ ID NO: 479] atggayatgmgngtnathttygcnytngtnttywsnwsnytngtncargcnaarwsnacngarttygayccnaay athaayathgtnggnytngarggnaarttyggnathacnaayytngaracngayytnttyacnathtgggaracnatggaygtnathaarwsng ayathacngayacngaymgngtnwsnaayttygtngcnacngaracngaygcnaaymgnggnaaratgccnggnaaraarytnccnytn gcngtnathatggaratggargcnaaygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaa ratgaargtntayathccnggnmgntgygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayath ccngarathwsnggnttyaargaratggcnccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaa rggnytngcnaaygnaartgywsngayytnytnaaraartggytnccnggnmgntgygcnwsnttygcngayaarathcaraargargtnc ayaayathaarggnatggcnggngaymgn (nucleotide sequence encoding full-length Metridia longa AL luciferase with RCAD substitution at C₅ and at C₆ and with KCSD substitution  at C₉) or a complement thereof;

(d) an amino acid sequence which is encoded by a nucleotide sequence that shares at least 70% (and at least 71% to at least 99% and all integer percentages in between) sequence identity with the sequence set forth in any one of SEQ ID NO: 173, 175, 177, 179, 181, 183, 185, 187, 189, 191, 193, 195, 197, 199, 201, 203, 205, 207, 209, 211, 213, 215, 217, 219, 221, 223, 225, 227, 229, 231, 233, 235, 237, 239, 241, 243, 245, 247, 249, 251, 253 255, 257, 259, 261, 263, 265, 267, 269, 271, 273, 275, 277, 279, 281, 283, 285, 287, 289, 291, 293, 295, 297, 299, 301, 303, 305, 307, 309, 311, 313, 315, 317, 319, 321, 323, 325, 327, 329, 331, 333, 335, 337, 339, 341, 343, 345, 347, 349, 351, 353, 355, 357, 359, 361, 363, 365, 367, 369, 371, 373, 375, 377, 379, 381, 383, 385, 387, 389, 391, 393, 395, 397, 399, 401, 403, 405, 407, 409, 411, 413, 415, 417, 419, 421, 423, 425, 427, 429, 431, 433, 435, 437, 439, 441, 443, 445, 447, 449, 451, 453, 455, 457, 459, 461, 463, 465, 467, 469, 471, 473, 475, 477 or 479, or a complement thereof, wherein the amino acid sequence comprises at least one subsequence corresponding to B₁C₅X₁₈X₁₉, X₃₇C₆X₃₈X₃₉ or X₄₁C₉ΣX₄₂ of formula X, wherein an individual subsequence consists of an amino acid sequence represented by formula XI as defined above; or

(e) an amino acid sequence which is encoded by a nucleotide sequence that hybridizes under at least medium or high stringency conditions to the sequence set forth in any one of SEQ ID NO: 173, 175, 177, 179, 181, 183, 185, 187, 189, 191, 193, 195, 197, 199, 201, 203, 205, 207, 209, 211, 213, 215, 217, 219, 221, 223, 225, 227, 229, 231, 233, 235, 237, 239, 241, 243, 245, 247, 249, 251, 253 255, 257, 259, 261, 263, 265, 267, 269, 271, 273, 275, 277, 279, 281, 283, 285, 287, 289, 291, 293, 295, 297, 299, 301, 303, 305, 307, 309, 311, 313, 315, 317, 319, 321, 323, 325, 327, 329, 331, 333, 335, 337, 339, 341, 343, 345, 347, 349, 351, 353, 355, 357, 359, 361, 363, 365, 367, 369, 371, 373, 375, 377, 379, 381, 383, 385, 387, 389, 391, 393, 395, 397, 399, 401, 403, 405, 407, 409, 411, 413, 415, 417, 419, 421, 423, 425, 427, 429, 431, 433, 435, 437, 439, 441, 443, 445, 447, 449, 451, 453, 455, 457, 459, 461, 463, 465, 467, 469, 471, 473, 475, 477 or 479, or a complement thereof, wherein the amino acid sequence comprises at least one subsequence corresponding to B₁C₅X₁₈X₁₉, X₃₇C₆X₃₈X₃₉ or X₄₁C₉ΣX₄₂ of formula X, wherein an individual subsequence consists of an amino acid sequence represented by formula XI as defined above.

In other embodiments, the polypeptides according to formula X comprise, consist or consist essentially of an amino acid sequence selected from the group consisting of:

(a) an amino acid sequence selected from:

[SEQ ID NO: 482] DLDADRGKLPGKKLPLEVLKEMEANARKAGCTRGCLICLSHIKCTPKMKK FIPGRCADYEGDKESAQGGIGEAIVDIPEIPGFKDLEPMEQFIAQVDLCVDCTTGCLKGLANVQ CSDLLKKWLPQRCATFASKIQGQVDKIKGAGGD (intracellular Gaussia princeps Prolume luciferase with RCAD  substitution at C₅); [SEQ ID NO: 484] DLDADRGKLPGKKLPLEVLKEMEANARKAGCTRGCLICLSHIKCTPKMKK FIPGRCADYEGDKESAQGGIGEAIVDIPEIPGFKDLEPMEQFIAQVDLCVDCTTGCLKGLANVQ CSDLLKKWLPQRCATFASKIQGQVDKIKGAGGDKDEL (intracellular Gaussia princeps Prolume KDEL luciferase with RCAD  substitution at C₅); [SEQ ID NO: 486] DLDADRGKLPGKKLPLEVLKEIEANARKAGCTRGCLICLSHIKCTPKMKKF IPGRCADYEGDKESAQGGIGEAIVDIPEIPGFKDLEPMEQFIAQVDLCVDCTTGCLKGLANVQ CSDLLKKWLPQRCATFASKIQGQVDKIKGAGGD (intracellular Gaussia princeps Mutant 1 luciferase with RCAD  substitution at C₅); [SEQ ID NO: 488] DLDADRGKLPGKKLPLEVLKELEANARKAGCTRGCLICLSHIKCTPKMKK FIPGRCADYEGDKESAQGGIGEAIVDIPEIPGFKDLEPLEQFIAQVDLCVDCTTGCLKGLANVQ CSDLLKKWLPQRCATFASKIQGQVDKIKGAGGD (intracellular Gaussia princeps Mutant 2 luciferase with RCAD  substitution at C₅); [SEQ ID NO: 490] DLDADRGKLPGKKLPLEVLKEMEANARKAGCTRGCLICLSHIKCTPKMKK FIPGRCADYEGDKESAQGGIGEAIVDIPEIPGFKDLEPMEQFIAQVDLCVDCTTGCLKGLANVQ CSDLLKKWLPQRCATFASKIQGQVDKIKGAGGD (intracellular Gaussia princeps GS luciferase with RCAD  substitution at C₅); [SEQ ID NO: 492] DVDANRGGHGGHPGKKMPKEVLVEMEANAKRAGCHRGCLICLSHIKCTK KMKKFIPGRCADYEGDKDSAQGGIGEEIVDMPEIPGFKDKEPMDQFIAQVDLCVDCTTGCLK GLANVHCSALLKKWLPSRCKTFASKIQSQVDTIKGLAGDR (intracellular Metridia pacifica 2a luciferase with RCAD  substitution at C₅); [SEQ ID NO: 494] DVDANRGGHGGHPGKKMPKEVLVEMEANAKRAGCHRGCLICLSHIKCTK KMKKFIPGRCADYEGDKDSAQGGIGEEIVDMPEIPGFKDKEPMDQFIAQVDLCVDCTTGCLK GLANVHCSDLLKKWLPSRCKTFASKIQSQVDTIKGLAGDR (intracellular Metridia pacifica 2bv1 luciferase with RCAD  substitution at C₅); [SEQ ID NO: 496] DVDANRGGHGGHPGKKMPKEVPVEMEANAKRAGCHRGCLICLSHIKCTK KMKKFIPGRCADYEGDKDSAQGGIGEEIVDMPEIPGFKDKEPMDQFIAQVDLCVDCTTGCLK GLANVHCSDLLKKWLPSRCKTFASKIQSQVDTIKGLAGDR (intracellular Metridia pacifica 2bv2 luciferase with RCAD  substitution at C₅); [SEQ ID NO: 498] DVDANRGGHGGHPGKKMPKEVLMEMEANAKRAGCHRGCLVCLSHIKCT AQMQKFIPGRCADYAGDKDSAQGGIAGGAIVDIPEIAGFKEMKPMEQFIAQVDLCEDCTTGC LKGLANVHCSDLLKKWLPSRCKTFASKIQSQVDTIKGLAGDR (intracellular Metridia longa 22 luciferase with RCAD  substitution at C₅); [SEQ ID NO: 500] NSDADRGKMPGKKLPLEVLIEMEANARKAGCTRGCLICLSKIKCTAKMKV YIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKELGPMEQFIAQVDLCADCTTGCLKGLANV KCSALLKKWLPDRCASFADKIQSEVDNIKGLAGDR (intracellular Metridia pacifica 1v1 luciferase with RCAD  substitution at C₅); [SEQ ID NO: 502] NSDADRGKMPGKKLPLEVLIEMEANARKAGCTRGCLICLSKIKCTAKMKV YlPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKELGPMEQFIAQVDLCADCTTGCLKGLANV KCSALLKKWLPDRCASFADKIQSEVDNIKGLAGDR (intracellular Metridia pacifica 1v2 luciferase with RCAD  substitution at C₅); [SEQ ID NO: 504] NSDADRGKMPGKKLPLEVLIEMEANARKAGCTRGCLICLSKIKCTAKMKV YIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKELGPMEQFIAQVDLCADCTTGCLKGLANV KCSALLKKWLPDRCASFADKIQSEVDNIKGLAGDR (intracellular Metridia pacifica 1v3 luciferase with RCAD  substitution at C₅); [SEQ ID NO: 506] NTDSNRGKMPGKKLPLAVLIEMEANAFKAGCTRGCLICLSKIKCTAKMKK YIPGRCADYGGDKKTGQAGIVGAIVDIPDISGFKEMGPMEQFIAQVDRCTDCTTGCLKGLAN VKCSELLKKWLPDRCASFADKIQSEVHNIKGLAGDR (intracellular Metridia longa 39 luciferase with RCAD  substitution at C₅); [SEQ ID NO: 508] NNDVNRGKMPGKKLPLEVLIEMEANAFKAGCTRGCLICLSKIKCTAKMKQ YIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKEMEPMEQFIAQVDLCADCTTGCLKGLANV KCSELLKKWLPDRCASFADKIQKEAHNIKGLAGDR (intracellular Metridia longa 7 luciferase with RCAD  substitution at C₅); [SEQ ID NO: 510] ETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMK VYIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDRCASCTTGCLKGLAN VKCSELLKKWLPDRCASFADKIQKEVHNIKGMAGDR (intracellular Metridia longa GS luciferase with RCAD  substitution at C₅); [SEQ ID NO: 512] ETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMK VYIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDRCASCTTGCLKGLAN VKCSELLKKWLPDRCASFADKIQKEVHNIKGMAGDR (intracellular Metridia longa 164M3 luciferase with RCAD  substitution at C₅); [SEQ ID NO: 514] ETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMK VYIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDRCASCTTGCLKGLAN VKCSELLKKWLPDRCASFADKIQKEVHNIKGMAGDR (intracellular Metridia longa 164v1 luciferase with RCAD  substitution at C₅); [SEQ ID NO: 516] ETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMK VYIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVERCASCTTGCLKGLAN VKCSELLKKWLPDRCASFADKIQKEVHNIKGMAGDR (intracellular Metridia longa 164v2 luciferase with RCAD  substitution at C₅); [SEQ ID NO: 518] ETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMK VYIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDRCTSCTTGCLKGLAN VKCSELLKKWLPDRCASFADKIQKEVHNIKGMAGDR (intracellular Metridia longa 16 luciferase with RCAD  substitution at C₅); [SEQ ID NO: 520] ETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMK VYIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKEMEPMEQFIAQVDRCASCTTGCLKGLAN VKCSELLKKWLPDRCASFADKIQKEVHNIKGMAGDR (intracellular Metridia longa 45 luciferase with RCAD  substitution at C₅); [SEQ ID NO: 522] ETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMK VYIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKEMEPMEQFIAQVDRCASCNTGCLKGLAN VKCSELLKKWLPDRCASFADKIQKEVHNIKGMAGDR (intracellular Metridia longa 52 luciferase with RCAD  substitution at C₅); and [SEQ ID NO: 524] ETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMK VYIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDLCATCTTGCLKGLAN VKCSELLKKWLPGRCASFADKIQKEVHNIKGMAGDR (intracellular Metridia longa AL luciferase with RCAD  substitution at C₅); [SEQ ID NO: 526] DLDADRGKLPGKKLPLEVLKEMEANARKAGCTRGCLICLSHIKCTPKMKK FIPGRCHTYEGDKESAQGGIGEAIVDIPEIPGFKDLEPMEQFIAQVDRCADCTTGCLKGLANVQ CSDLLKKWLPQRCATFASKIQGQVDKIKGAGGD (intracellular Gaussia princeps Prolume luciferase with RCAD  substitution at C₆); [SEQ ID NO: 528] DLDADRGKLPGKKLPLEVLKEMEANARKAGCTRGCLICLSHIKCTPKMKK FIPGRCHTYEGDKESAQGGIGEAIVDIPEIPGFKDLEPMEQFIAQVDRCADCTTGCLKGLANVQ CSDLLKKWLPQRCATFASKIQGQVDKIKGAGGDKDEL (intracellular Gaussia princeps Prolume KDEL luciferase with RCAD  substitution at C₆); [SEQ ID NO: 530] DLDADRGKLPGKKLPLEVLKEIEANARKAGCTRGCLICLSHIKCTPKMKKF IPGRCHTYEGDKESAQGGIGEAIVDIPEIPGFKDLEPMEQFIAQVDRCADCTTGCLKGLANVQ CSDLLKKWLPQRCATFASKIQGQVDKIKGAGGD (intracellular Gaussia princeps Mutant 1 luciferase with RCAD  substitution at C₆); [SEQ ID NO: 532] DLDADRGKLPGKKLPLEVLKELEANARKAGCTRGCLICLSHIKCTPKMKK FIPGRCHTYEGDKESAQGGIGEAIVDIPEIPGFKDLEPLEQFIAQVDRCADCTTGCLKGLANVQ CSDLLKKWLPQRCATFASKIQGQVDKIKGAGGD (intracellular Gaussia princeps Mutant 2 luciferase with RCAD  substitution at C₆); [SEQ ID NO: 534] DLDADRGKLPGKKLPLEVLKEMEANARKAGCTRGCLICLSHIKCTPKMKK FIPGRCHTYEGDKESAQGGIGEAIVDIPEIPGFKDLEPMEQFIAQVDRCADCTTGCLKGLANVQ CSDLLKKWLPQRCATFASKIQGQVDKIKGAGGD (intracellular Gaussia princeps GS luciferase with RCAD  substitution at C₆) [SEQ ID NO: 536] DVDANRGGHGGHPGKKMPKEVLVEMEANAKRAGCHRGCLICLSHIKCTK KMKKFIPGRCHSYEGDKDSAQGGIGEEIVDMPEIPGFKDKEPMDQFIAQVDRCADCTTGCLK GLANVHCSALLKKWLPSRCKTFASKIQSQVDTIKGLAGDR (intracellular Metridia pacifica 2a luciferase with RCAD  substitution at C₆); [SEQ ID NO: 538] DVDANRGGHGGHPGKKMPKEVLVEMEANAKRAGCHRGCLICLSHIKCTK KMKKFIPGRCHSYEGDKDSAQGGIGEEIVDMPEIPGFKDKEPMDQFIAQVDRCADCTTGCLK GLANVHCSDLLKKWLPSRCKTFASKIQSQVDTIKGLAGDR (intracellular Metridia pacifica 2bv1 luciferase with RCAD  substitution at C₆); [SEQ ID NO: 540] DVDANRGGHGGHPGKKMPKEVPVEMEANAKRAGCHRGCLICLSHIKCTK KMKKFIPGRCHSYEGDKDSAQGGIGEEIVDMPEIPGFKDKEPMDQFIAQVDRCADCTTGCLK GLANVHCSDLLKKWLPSRCKTFASKIQSQVDTIKGLAGDR (intracellular Metridia pacifica 2bv2 luciferase with RCAD  substitution at C₆); [SEQ ID NO: 542] DVDANRGGHGGHPGKKMPKEVLMEMEANAKRAGCHRGCLVCLSHIKCT AQMQKFIPGRCHSYAGDKDSAQGGIAGGAIVDIPEIAGFKEMKPMEQFIAQVDRCADCTTGC LKGLANVHCSDLLKKWLPSRCKTFASKIQSQVDTIKGLAGDR (intracellular Metridia longa 22 luciferase with RCAD  substitution at C₆); [SEQ ID NO: 544] NSDADRGKMPGKKLPLEVLIEMEANARKAGCTRGCLICLSKIKCTAKMKV YIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKELGPMEQFIAQVDRCADCTTGCLKGLANV KCSALLKKWLPDRCASFADKIQSEVDNIKGLAGDR (intracellular Metridia pacifica 1v1 luciferase with RCAD  substitution at C₆); [SEQ ID NO: 546] NSDADRGKMPGKKLPLEVLIEMEANARKAGCTRGCLICLSKIKCTAKMKV YIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKELGPMEQFIAQVDRCADCTTGCLKGLANV KCSALLKKWLPDRCASFADKIQSEVDNIKGLAGDR (intracellular Metridia pacifica 1v2 luciferase with RCAD  substitution at C₆); [SEQ ID NO: 548] NSDADRGKMPGKKLPLEVLIEMEANARKAGCTRGCLICLSKIKCTAKMKV YIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKELGPMEQFIAQVDRCADCTTGCLKGLANV KCSALLKKWLPDRCASFADKIQSEVDNIKGLAGDR (intracellular Metridia pacifica 1v3 luciferase with RCAD  substitution at C₆); [SEQ ID NO: 550] NTDSNRGKMPGKKLPLAVLIEMEANAFKAGCTRGCLICLSKIKCTAKMKK YIPGRCHDYGGDKKTGQAGIVGAIVDIPDISGFKEMGPMEQFIAQVDRCADCTTGCLKGLAN VKCSELLKKWLPDRCASFADKIQSEVHNIKGLAGDR (intracellular Metridia longa 39 luciferase with RCAD  substitution at C₆); [SEQ ID NO: 552] NNDVNRGKMPGKKLPLEVLIEMEANAFKAGCTRGCLICLSKIKCTAKMKQ YIPGRCHDYGGDKKTGQAGTVGAIVDIPEISGFKEMEPMEQFIAQVDRCADCTTGCLKGLAN VKCSELLKKWLPDRCASFADKIQKEAHNIKGLAGDR (intracellular Metridia longa 7 luciferase with RCAD  substitution at C₆); [SEQ ID NO: 554] ETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMK VYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDRCADCTTGCLKGLA NVKCSELLKKWLPDRCASFADKIQKEVHNIKGMAGDR (intracellular Metridia longa GS luciferase with RCAD  substitution at C₆); [SEQ ID NO: 556] ETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMK VYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDRCADCTTGCLKGLA NVKCSELLKKWLPDRCASFADKIQKEVHNIKGMAGDR (intracellular Metridia longa 164M3 luciferase with RCAD  substitution at C₆); [SEQ ID NO: 558] ETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMK VYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDRCADCTTGCLKGLA NVKCSELLKKWLPDRCASFADKIQKEVHNIKGMAGDR (intracellular Metridia longa 164v1 luciferase with RCAD  substitution at C₆); [SEQ ID NO: 560] ETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMK VYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVERCADCTTGCLKGLA NVKCSELLKKWLPDRCASFADKIQKEVHNIKGMAGDR (intracellular Metridia longa 164v2 luciferase with RCAD  substitution at C₆); [SEQ ID NO: 562] ETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMK VYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDRCADCTTGCLKGLA NVKCSELLKKWLPDRCASFADKIQKEVHNIKGMAGDR (intracellular Metridia longa 16 luciferase with RCAD substitution at C₆); [SEQ ID NO: 564] ETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMK VYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMEPMEQFIAQVDRCADCTTGCLKGLA NVKCSELLKKWLPDRCASFADKIQKEVHNIKGMAGDR (intracellular Metridia longa 45 luciferase with RCAD  substitution at C₆); [SEQ ID NO: 566] ETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMK VYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMEPMEQFIAQVDRCADCNTGCLKGLA NVKCSELLKKWLPDRCASFADKIQKEVHNIKGMAGDR (intracellular Metridia longa 52 luciferase with RCAD  substitution at C₆); [SEQ ID NO: 568] ETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMK VYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDRCADCTTGCLKGLA NVKCSELLKKWLPGRCASFADKIQKEVHNIKGMAGDR (intracellular Metridia longa AL luciferase with RCAD  substitution at C₆); [SEQ ID NO: 570] DLDADRGKLPGKKLPLEVLKEMEANARKAGCTRGCLICLSHIKCTPKMKK FIPGRCHTYEGDKESAQGGIGEAIVDIPEIPGFKDLEPMEQPIAQVDLCVDCTTGCLKGLANV KCSDLLKKWLPQRCATFASKIQGQVDKIKGAGGD (intracellular Gaussia princeps Prolume luciferase with KCSD  substitution at C₉); [SEQ ID NO: 572] DLDADRGKLPGKKLPLEVLKEMEANARKAGCTRGCLICLSHIKCTPKMKK FIPGRCHTYEGDKESAQGGIGEAIVDIPEIPGFKDLEPMEQFIAQVDLCVDCTTGCLKGLANV KCSDLLKKWLPQRCATFASKIQGQVDKIKGAGGDKDEL (intracellular Gaussia princeps Prolume KDEL luciferase with KCSD  substitution at C₉); [SEQ ID NO: 574] DLDADRGKLPGKKLPLEVLKEIEANARKAGCTRGCLICLSHIKCTPKMKKF IPGRCHTYEGDKESAQGGIGEAIVDIPEIPGFKDLEPMEQFIAQVDLCVDCTTGCLKGLANV KCSDLLKKWLPQRCATFASKIQGQVDKIKGAGGD (intracellular Gaussia princeps Mutant 1 luciferase with KCSD  substitution at C₉); [SEQ ID NO: 576] DLDADRGKLPGKKLPLEVLKELEANARKAGCTRGCLICLSHIKCTPKMKK FIPGRCHTYEGDKESAQGGIGEAIVDIPEIPGFKDLEPLEQFIAQVDLCVDCTTGCLKGLANV KCSDLLKKWLPQRCATFASKIQGQVDKIKGAGGD (intracellular Gaussia princeps Mutant 2 luciferase with KCSD  substitution at C₉); [SEQ ID NO: 578] DLDADRGKLPGKKLPLEVLKELEANARKAGCTRGCLICLSHIKCTPKMKK FIPGRCHTYEGDKESAQGGIGEAIVDIPEIPGFKDLEPLEQFIAQVDLCVDCTTGCLKGLANV KCSDLLKKWLPQRCATFASKIQGQVDKIKGAGGD (intracellular Gaussia princeps GS luciferase with KCSD  substitution at C₉) [SEQ ID NO: 580] DVDANRGGHGGHPGKKMPKEVLVEMEANAKRAGCHRGCLICLSHIKCTK KMKKFIPGRCHSYEGDKDSAQGGIGEEIVDMPEIPGFKDKEPMDQFIAQVDLCVDCTTGCLK GLANVKCSDLLKKWLPSRCKTFASKIQSQVDTIKGLAGDR (intracellular Metridia pacifica 2a luciferase with KCSD  substitution at C₉); [SEQ ID NO: 582] DVDANRGGHGGHPGKKMPKEVLVEMEANAKRAGCHRGCLICLSHIKCTK KMKKFIPGRCHSYEGDKDSAQGGIGEEIVDMPEIPGFKDKEPMDQFIAQVDLCVDCTTGCLK GLANVKCSDLLKKWLPSRCKTFASKIQSQVDTIKGLAGDR (intracellular Metridia pacifica 2bv1 luciferase with KCSD  substitution at C₉); [SEQ ID NO: 584] DVDANRGGHGGHPGKKMPKEVPVEMEANAKRAGCHRGCLICLSHIKCTK KMKKFIPGRCHSYEGDKDSAQGGIGEEIVDMPEIPGFKDKEPMDQFIAQVDLCVDCTTGCLK GLANVKCSDLLKKWLPSRCKTFASKIQSQVDTIKGLAGDR (intracellular Metridia pacifica 2bv2 luciferase with KCSD  substitution at C₉); [SEQ ID NO: 586] DVDANRGGHGGHPGKKMPKEVLMEMEANAKRAGCHRGCLVCLSHIKCT AQMQKFIPGRCHSYAGDKDSAQGGIAGGAIVDIPEIAGFKEMKPMEQFIAQVDLCEDCTTGCL KGLANVKCSDLLKKWLPSRCKTFASKIQSQVDTIKGLAGDR (intracellular Metridia longa 22 luciferase with KCSD  substitution at C₉); [SEQ ID NO: 588] NSDADRGKMPGKKLPLEVLIEMEANARKAGCTRGCLICLSKIKCTAKMKV YIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKELGPMEQFIAQVDLCADCTTGCLKGLANV KCSDLLKKWLPDRCASFADKIQSEVDNIKGLAGDR (intracellular Metridia pacifica 1v1 luciferase with KCSD  substitution at C₉); [SEQ ID NO: 590] NSDADRGKMPGKKLPLEVLIEMEANARKAGCTRGCLICLSKIKCTAKMKV YIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKELGPMEQFIAQVDLCADCTTGCLKGLANV KCSDLLKKWLPDRCASFADKIQSEVDNIKGLAGDR (intracellular Metridia pacifica 1v2 luciferase with KCSD  substitution at C₉); [SEQ ID NO: 592] NSDADRGKMPGKKLPLEVLIEMEANARKAGCTRGCLICLSKIKCTAKMKV YIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKELGPMEQFIAQVDLCADCTTGCLKGLANV KCSDLLKKWLPDRCASFADKIQSEVDNIKGLAGDR (intracellular Metridia pacifica 1v3 luciferase with KCSD  substitution at C₉); [SEQ ID NO: 594] NTDSNRGKMPGKKLPLAVLIEMEANAFKAGCTRGCLICLSKIKCTAKMKK YIPGRCHDYGGDKKTGQAGIVGAIVDIPDISGFKEMGPMEQFIAQVDRCTDCTTGCLKGLAN VKCSDLLKKWLPDRCASFADKIQSEVHNIKGLAGDR (intracellular Metridia longa 39 luciferase with KCSD  substitution at C₉); [SEQ ID NO: 596] NNDVNRGKMPGKKLPLEVLIEMEANAFKAGCTRGCLICLSKIKCTAKMKQ YIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMEPMEQFIAQVDLCADCTTGCLKGLANV KCSDLLKKWLPDRCASFADKIQKEAHNIKGLAGDR (intracellular Metridia longa 7 luciferase with KCSD  substitution at C₉); [SEQ ID NO: 598] ETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMK VYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDRCASCTTGCLKGLAN VKCSDLLKKWLPDRCASFADKIQKEVHNIKGMAGDR (intracellular Metridia longa GS luciferase with KCSD  substitution at C₉); [SEQ ID NO: 600] ETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMK VYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDRCASCTTGCLKGLAN VKCSDLLKKWLPDRCASFADKIQKEVHNIKGMAGDR (intracellular Metridia longa 164M3 luciferase with KCSD  substitution at C₉); [SEQ ID NO: 602] ETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMK VYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDRCASCTTGCLKGLAN VKCSDLLKKWLPDRCASFADKIQKEVHNIKGMAGDR (intracellular Metridia longa 164v1 luciferase with KCSD  substitution at C₉); [SEQ ID NO: 604] ETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMK VYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVERCASCTTGCLKGLAN VKCSDLLKKWLPDRCASFADKIQKEVHNIKGMAGDR (intracellular Metridia longa 164v2 luciferase with KCSD  substitution at C₉); [SEQ ID NO: 606] ETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMK VYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDRCTSCTTGCLKGLAN VKCSDLLKKWLPDRCASFADKIQKEVHNIKGMAGDR (intracellular Metridia longa 16 luciferase with KCSD  substitution at C₉); [SEQ ID NO: 608] ETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMK VYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMEPMEQFIAQVDRCASCTTGCLKGLAN VKCSDLLKKWLPDRCASFADKIQKEVHNIKGMAGDR (intracellular Metridia longa 45 luciferase with KCSD  substitution at C₉); [SEQ ID NO: 610] ETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMK VYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMEPMEQFIAQVDRCASCNTGCLKGLAN VKCSDLLKKWLPDRCASFADKIQKEVHNIKGMAGDR (intracellular Metridia longa 52 luciferase with KCSD  substitution at C₉); [SEQ ID NO: 612] ETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMK VYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDLCATCTTGCLKGLAN VKCSDLLKKWLPGRCASFADKIQKEVHNIKGMAGDR (intracellular Metridia longa AL luciferase with KCSD  substitution at C₉); [SEQ ID NO: 614] DLDADRGKLPGKKLPLEVLKEMEANARKAGCTRGCLICLSHIKCTPKMKK FIPGRCADYEGDKESAQGGIGEAIVDIPEIPGFKDLEPMEQFIAQVDRCADCTTGCLKGLANV QCSDLLKKWLPQRCATFASKIQGQVDKIKGAGGD (intracellular Gaussia princeps Prolume luciferase with RCAD  substitution at C₅ and at C₆); [SEQ ID NO: 616] DLDADRGKLPGKKLPLEVLKEIEANARKAGCTRGCLICLSHIKCTPKMKK FIPGRCADYEGDKESAQGGIGEAIVDIPEIPGFKDLEPLEQFIAQVDRCADCTTGCLKGLANV QCSDLLKKWLPQRCATFASKIQGQVDKIKGAGGDKDEL (intracellular Gaussia princeps Prolume KDEL luciferase with RCAD  substitution at C₅ and at C₆); [SEQ ID NO: 618] DLDADRGKLPGKKLPLEVLKEIEANARKAGCTRGCLICLSHIKCTPKMKKF IPGRCADYEGDKESAQGGIGEAIVDIPEIPGFKDLEPMEQFIAQVDRCADCTTGCLKGLANVQ CSDLLKKWLPQRCATFASKIQGQVDKIKGAGGD (intracellular Gaussia princeps Mutant 1 luciferase with RCAD substitution at C₅ and at C₆); [SEQ ID NO: 620] DLDADRGKLPGKKLPLEVLKELEANARKAGCTRGCLICLSHIKCTPKMKK FIPGRCADYEGDKESAQGGIGEAIVDIPEIPGFKDLEPLEQFIAQVDRCADCTTGCLKGLANVQ CSDLLKKWLPQRCATFASKIQGQVDKIKGAGGD (intracellular Gaussia princeps Mutant 2 luciferase with RCAD  substitution at C₅); [SEQ ID NO: 622] DLDADRGKLPGKKLPLEVLKEMEANARKAGCTRGCLICLSHIKCTPKMKK FIPGRCADYEGDKESAQGGIGEAIVDIPEIPGFKDLEPMEQFIAQVDRCADCTTGCLKGLANV QCSDLLKKWLPQRCATFASKIQGQVDKIKGAGGD (intracellular Gaussia princeps GS luciferase with RCAD  substitution at C₅ and at C₆); [SEQ ID NO: 624] DVDANRGGHGGHPGKKMPKEVLVEMEANAKRAGCHRGCLICLSHIKCTK KMKKFIPGRCADYEGDKDSAQGGIGEEIVDMPEIPGFKDKEPMDQFIAQVDRCADCTTGCLK GLANVHCSALLKKWLPSRCKTFASKIQSQVDTIKGLAGDR (intracellular Metridia pacifica 2a luciferase with RCAD  substitution at C₅ and at C₆); [SEQ ID NO: 626] DVDANRGGHGGHPGKKMPKEVLVEMEANAKRAGCHRGCLICLSHIKCTK KMKKFIPGRCADYEGDKDSAQGGIGEEIVDMPEIPGFKDKEPMDQFIAQVDRCADCTTGCLK GLANVHCSDLLKKWLPSRCKTFASKIQSQVDTIKGLAGDR (intracellular Metridia pacifica 2bv1 luciferase with RCAD  substitution at C₅ and at C₆); [SEQ ID NO: 628] DVDANRGGHGGHPGKKMPKEVPVEMEANAKRAGCHRGCLICLSHIKCTK KMKKCFIPGRCADYEGDKDSAQGGIGEEIVDMPEIPGFKDKEPMDQFIAQVDRCADCTTGCLK GLANVHCSDLLKKWLPSRCKTFASKIQSQVDTIKGLAGDR (intracellular Metridia pacifica 2bv2 luciferase with RCAD  substitution at C₅ and at C₆); [SEQ ID NO: 630] DVDANRGGHGGHPGKKMPKEVLMEMEANAKRAGCHRGCLVCLSHIKCT AQMQKFIPGRCADYAGDKDSAQGGIAGGAIVDIPEIAGFKEMKPMEQFIAQVDRCADCTTGC LKGLANVHCSDLLKKWLPSRCKTFASKIQSQVDTIKGLAGDR (intracellular Metridia longa 22 luciferase with RCAD  substitution at C₅ and at C₆); [SEQ ID NO: 632] NSDADRGKMPGKKLPLEVLIEMEANARKAGCTRGCLICLSKIKCTAKMKV YIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKELGPMEQFIAQVDRCADCTTGCLKGLANV KCSALLKKWLPDRCASFADKIQSEVDNIKGLAGDR (intracellular Metridia pacifica 1v1 luciferase with RCAD  substitution at C₅ and at C₆); [SEQ ID NO: 634] NSDADRGKMPGKKLPLEVLIEMEANARKAGCTRGCLICLSKIKCTAKMKV YIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKELGPMEQFIAQVDRCADCTTGCLKGLANV KCSALLKKWLPDRCASFADKIQSEVDNIKGLAGDR (intracellular Metridia pacifica 1v2 luciferase with RCAD  substitution at C₅ and at C₆); [SEQ ID NO: 636] NSDADRGKMPGKKLPLEVLIEMEANARKAGCTRGCLICLSKIKCTAKMKV YIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKELGPMEQFIAQVDRCADCTTGCLKGLANV KCSALLKKWLPDRCASFADKIQSEVDNIKGLAGDR (intracellular Metridia pacifica 1v3 luciferase with RCAD  substitution at C₅ and at C₆); [SEQ ID NO: 638] NTDSNRGKMPGKKLPLAVLIEMEANAFKAGCTRGCLICLSKIKCTAKMKK YIPGRCADYGGDKKTGQAGIVGAIVDIPDISGFKEMGPMEQFIAQVDRCADCTTGCLKGLAN VKCSELLKKWLPDRCASFADKIQSEVHNIKGLAGDR (intracellular Metridia longa 39 luciferase with RCAD  substitution at C₅ and at C₆); [SEQ ID NO: 640] NNDVNRGKMPGKKLPLEVLIEMEANAFKAGCTRGCLICLSKIKCTAKMKQ YIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKEMEPMEQFIAQVDRCADCTTGCLKGLAN VKCSELLKKWLPDRCASFADKIQKEAHNIKGLAGDR (intracellular Metridia longa 7 luciferase with RCAD  substitution at C₅ and at C₆); [SEQ ID NO: 642] ETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMK VYIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDRCADCTTGCLKGLA NVKCSELLKKWLPDRCASFADKIQKEVHNIKGMAGDR (intracellular Metridia longa GS luciferase with RCAD  substitution at C₅ and at C₆); [SEQ ID NO: 644] ETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMK VYIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDRCADCTTGCLKGLA NVKCSELLKKWLPDRCASFADKIQKEVHNIKGMAGDR (intracellular Metridia longa 164M3 luciferase with RCAD  substitution at C₅ and at C₆); [SEQ ID NO: 646] ETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMK VYIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDRCADCTTGCLKGLA NVKCSELLKKWLPDRCASFADKIQKEVHNIKGMAGDR (intracellular Metridia longa 164v1 luciferase with RCAD  substitution at C₅ and at C₆); [SEQ ID NO: 648] ETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMK VYIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVERCADCTTGCLKGLA NVKCSELLKKWLPDRCASFADKIQKEVHNIKGMAGDR (intracellular Metridia longa 164v2 luciferase with RCAD  substitution at C₅ and at C₆); [SEQ ID NO: 650] ETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMK VYIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDRCADCTTGCLKGLA NVKCSELLKKWLPDRCASFADKIQKEVHNIKGMAGDR (intracellular Metridia longa 16 luciferase with RCAD  substitution at C₅ and at C₆); [SEQ ID NO: 652] ETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMK VYIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKEMEPMEQFIAQVDRCADCTTGCLKGLA NVKCSELLKKWLPDRCASFADKIQKEVHNIKGMAGDR (intracellular Metridia longa 45 luciferase with RCAD  substitution at C₅ and at C₆); [SEQ ID NO: 654] ETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMK VYIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKEMEPMEQFIAQVDRCADCNTGCLKGLA NVKCSELLKKWLPDRCASFADKIQKEVHNIKGMAGDR (intracellular Metridia longa 52 luciferase with RCAD  substitution at C₅ and at C₆); [SEQ ID NO: 656] ETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMK VYIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDRCADCTTGCLKGLA NVKCSELLKKWLPGRCASFADKIQKEVHNIKGMAGDR (intracellular Metridia longa AL luciferase with RCAD  substitution at C₅ and at C₆); [SEQ ID NO: 658] DLDADRGKLPGKKLPLEVLKEMEANARKAGCTRGCLICLSHIKCTPKMKK FIPGRCADYEGDKESAQGGIGEAIVDIPEIPGFKDLEPMEQFIAQVDLCVDCTTGCLKGLANV KCSDLLKKWLPQRCATFASKIQGQVDKIKGAGGD (intracellular Gaussia princeps Prolume luciferase with RCAD  substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 660] DLDADRGKLPGKKLPLEVLKEMEANARKAGCTRGCLICLSHIKCTPKMKK FIPGRCADYEGDKESAQGGIGEAIVDIPEIPGFKDLEPMEQFIAQVDLCVDCTTGCLKGLANV KCSDLLKKWLPQRCATFASKIQGQVDKIKGAGGDKDEL (intracellular Gaussia princeps Prolume KDEL luciferase with RCAD  substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 662] DLDADRGKLPGKKLPLEVLKEIEANARKAGCTRGCLICLSHIKCTPKMKKF IPGRCADYEGDKESAQGGIGEAIVDIPEIPGFKDLEPMEQFIAQVDLCVDCTTGCLKGLANV KCSDLLKKWLPQRCATFASKIQGQVDKIKGAGGD (intracellular Gaussia princeps Mutant 1 luciferase with RCAD  substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 664] DLDADRGKLPGKKLPLEVLKELEANARKAGCTRGCLICLSHIKCTPKMKK FIPGRCADYEGDKESAQGGIGEAIVDIPEIPGFKDLEPLEQFIAQVDLCVDCTTGCLKGLANV KCSDLLKKWLPQRCATFASKIQGQVDKIKGAGGD (intracellular Gaussia princeps Mutant 2 luciferase with RCAD  substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 666] DLDADRGKLPGKKLPLEVLKEMEANARKAGCTRGCLICLSHIKCTPKMKK FIPGRCADYEGDKESAQGGIGEAIVDIPEIPGFKDLEPMEQFIAQVDLCVDCTTGCLKGLANV KCSDLLKKWLPQRCATFASKIQGQVDKIKGAGGD (intracellular Gaussia princeps GS luciferase with RCAD   substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 668] DVDANRGGHGGHPGKKMPKEVLVEMEANAKRAGCHRGCLICLSHIKCTK KMKKFIPGRCADYEGDKDSAQGGIGEEIVDMPEIPGFKDKEPMDQFIAQVDLCVDCTTGCLK GLANVKCSDLLKKWLPSRCKTFASKIQSQVDTIKGLAGDR (intracellular Metridia pacifica 2a luciferase with RCAD   substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 670] DVDANRGGHGGHPGKKMPKEVLVEMEANAKRAGCHRGCLICLSHIKCTK KMKKFIPGRCADYEGDKDSAQGGIGEEIVDMPEIPGFKDKEPMDQFIAQVDLCVDCTTGCLK GLANVKCSDLLKKWLPSRCKTFASKIQSQVDTIKGLAGDR (intracellular Metridia pacifica 2bv1 luciferase with RCAD   substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 672] DVDANRGGHGGHPGKKMPKEVPVEMEANAKRAGCHRGCLICLSHIKCTK KMKKFIPGRCADYEGDKDSAQGGIGEEIVDMPEIPGFKDKEPMDQFIAQVDLCVDCTTGCLK GLANVKCSDLLKKWLPSRCKTFASKIQSQVDTIKGLAGDR (intracellular Metridia pacifica 2bv2 luciferase with RCAD   substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 674] DVDANRGGHGGHPGKKMPKEVLMEMEANAKRAGCHRGCLVCLSHIKCT AQMQKFIPGRCADYAGDKDSAQGGIAGGAIVDIPEIAGFKEMKPMEQFIAQVDLCEDCTTGC LKGLANVKCSDLLKKWLPSRCKTFASKIQSQVDTIKGLAGDR (intracellular Metridia longa 22 luciferase with RCAD   substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 676] NSDADRGKMPGKKLPLEVLIEMEANARKAGCTRGCLICLSKIKCTAKMKV YIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKELGPMEQFIAQVDLCADCTTGCLKGLANV KCSDLLKKWLPDRCASFADKIQSEVDNIKGLAGDR (intracellular Metridia pacifica 1v1 luciferase with RCAD  substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 678] NSDADRGKMPGKKLPLEVLIEMEANARKAGCTRGCLICLSKIKCTAKMKV YIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKELGPMEQFIAQVDLCADCTTGCLKGLANV KCSDLLKKWLPDRCASFADKIQSEVDNIKGLAGDR (intracellular Metridia pacifica 1v2 luciferase with RCAD  substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 680] NSDADRGKMPGKKLPLEVLIEMEANARKAGCTRGCLICLSKIKCTAKMKV YIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKELGPMEQFIAQVDLCADCTTGCLKGLANV KCSDLLKKWLPDRCASFADKIQSEVDNIKGLAGDR (intracellular Metridia pacifica 1v3 luciferase with RCAD  substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 682] NTDSNRGKMPGKKLPLAVLIEMEANAFKAGCTRGCLICLSKIKCTAKMKK YIPGRCADYGGDKKTGQAGIVGAIVDIPDISGFKEMGPMEQFIAQVDRCTDCTTGCLKGLAN VKCSDLLKKWLPDRCASFADKIQSEVHNIKGLAGDR (intracellular Metridia longa 39 luciferase with RCAD  substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 684] NNDVNRGKMPGKKLPLEVLIEMEANAFKAGCTRGCLICLSKIKCTAKMKQ YIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKEMEPMEQFIAQVDLCADCTTGCLKGLANV KCSDLLKKWLPDRCASFADKIQKEAHNIKGLAGDR (intracellular Metridia longa 7 luciferase with RCAD  substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 686] ETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMK VYIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDRCASCTTGCLKGLAN VKCSDLLKKWLPDRCASFADKIQKEVHNIKGMAGDR (intracellular Metridia longa GS luciferase with RCAD  substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 688] ETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMK VYIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDRCASCTTGCLKGLAN VKCSDLLKKWLPDRCASFADKIQKEVHNIKGMAGDR (intracellular Metridia longa 164M3 luciferase with RCAD  substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 690] ETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMK VYIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDRCASCTTGCLKGLAN VKCSDLLKKWLPDRCASFADKIQKEVHNIKGMAGDR (intracellular Metridia longa 164v1 luciferase with RCAD  substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 692] ETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMK VYIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVERCASCTTGCLKGLAN VKCSDLLKKWLPDRCASFADKIQKEVHNIKGMAGDR (intracellular Metridia longa 164v2 luciferase with RCAD  substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 694] ETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMK VYIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDRCTSCTTGCLKGLAN VKCSDLLKKWLPDRCASFADKIQKEVHNIKGMAGDR (intracellular Metridia longa 16 luciferase with RCAD  substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 696] ETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMK VYIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKEMEPMEQFIAQVDRCASCTTGCLKGLAN VKCSDLLKKWLPDRCASFADKIQKEVHNIKGMAGDR (intracellular Metridia longa 45 luciferase with RCAD  substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 698] ETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMK VYIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKEMEPMEQFIAQVDRCASCNTGCLKGLAN VKCSDLLKKWLPDRCASFADKIQKEVHNIKGMAGDR (intracellular Metridia longa 52 luciferase with RCAD  substitution at C₅ and with KCSD substitution at C₉); and [SEQ ID NO: 700] ETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMK VYIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDLCATCTTGCLKGLAN VKCSDLLKKWLPGRCASFADKIQKEVHNIKGMAGDR (intracellular Metridia longa AL luciferase with RCAD  substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 702] DLDADRGKLPGKKLPLEVLKEMEANARKAGCTRGCLICLSHIKCTPKMKK FIPGRCHTYEGDKESAQGGIGEAIVDIPEIPGFKDLEPMEQFIAQVDRCADCTTGCLKGLANV KCSDLLKKWLPQRCATFASKIQGQVDKIKGAGGD (intracellular Gaussia princeps Prolume luciferase with RCAD  substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 704] DLDADRGKLPGKKLPLEVLKEMEANARKAGCTRGCLICLSHIKCTPKMKK FIPGRCHTYEGDKESAQGGIGEAIVDIPEIPGFKDLEPMEQFIAQVDRCADCTTGCLKGLANV KCSDLLKKWLPQRCATFASKIQGQVDKIKGAGGDKDEL (intracellular Gaussia princeps Prolume KDEL luciferase with RCAD  substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 706] DLDADRGKLPGKKLPLEVLKEIEANARKAGCTRGCLICLSHIKCTPKMKKF IPGRCHTYEGDKESAQGGIGEAIVDIPEIPGFKDLEPMEQFIAQVDRCADCTTGCLKGLANV KCSDLLKKWLPQRCATFASKIQGQVDKIKGAGGD (intracellular Gaussia princeps Mutant 1 luciferase with RCAD  substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 708] DLDADRGKLPGKKLPLEVLKELEANARKAGCTRGCLICLSHIKCTPKMKK FIPGRCHTYEGDKESAQGGIGEAIVDIPEIPGFKDLEPLEQFIAQVDRCADCTTGCLKGLANV KCSDLLKKWLPQRCATFASKIQGQVDKIKGAGGD (intracellular Gaussia princeps Mutant 2 luciferase with RCAD  substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 710] DLDADRGKLPGKKLPLEVLKEMEANARKAGCTRGCLICLSHIKCTPKMKK FIPGRCHTYEGDKESAQGGIGEAIVDIPEIPGFKDLEPMEQFIAQVDRCADCTTGCLKGLANV KCSDLLKKWLPQRCATFASKIQGQVDKIKGAGGD (intracellular Gaussia princeps GS luciferase with RCAD  substitution at C₆ and with KCSD substitution at C₉) [SEQ ID NO: 712] DVDANRGGHGGHPGKKMPKEVLVEMEANAKRAGCHRGCLICLSHIKCTK KMICKFIPGRCHSYEGDKDSAQGGIGEEIVDMPEIPGFKDKEPMDQFIAQVDRCADCTTGCLK GLANVKCSDLLKKWLPSRCKTFASKIQSQVDTIKGLAGDR (intracellular Metridia pacifica 2a luciferase with RCAD  substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 714] DVDANRGGHGGHPGKKMPKEVLVEMEANAKRAGCHRGCLICLSHIKCTK KMKKFIPGRCHSYEGDKDSAQGGIGEEIVDMPEIPGFKDKEPMDQFIAQVDRCADCTTGCLK GLANVKCSDLLKKWLPSRCKTFASKIQSQVDTIKGLAGDR (intracellular Metridia pacifica 2bv1 luciferase with RCAD  substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 716] DVDANRGGHGGHPGKKMPKEVPVEMEANAKRAGCHRGCLICLSHIKCTK KMKKFIPGRCHSYEGDKDSAQGGIGEEIVDMPEIPGFKDKEPMDQFIAQVDRCADCTTGCLK GLANVKCSDLLKKWLPSRCKTFASKIQSQVDTIKGLAGDR (intracellular Metridia pacifica 2bv2 luciferase with RCAD  substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 718] DVDANRGGHGGHPGKKMPKEVLMEMEANAKRAGCHRGCLVCLSHIKCT AQMQKFIPGRCHSYAGDKDSAQGGIAGGAIVDIPEIAGFKEMKPMEQFIAQVDRCADCTTGC LKGLANVKCSDLLKKWLPSRCKTFASKIQSQVDTIKGLAGDR (intracellular Metridia longa 22 luciferase with RCAD  substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 720] NSDADRGKMPGKKLPLEVLIEMEANARKAGCTRGCLICLSKIKCTAKMKV YIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKELGPMEQFIAQVDRCADCTTGCLKGLANV KCSDLLKKWLPDRCASFADKIQSEVDNIKGLAGDR (intracellular Metridia pacifica 1v1 luciferase with RCAD  substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 722] NSDADRGKMPGKKLPLEVLIEMEANARKAGCTRGCLICLSKIKCTAKMKV YIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKELGPMEQFIAQVDRCADCTTGCLKGLANV KCSDLLKKWLPDRCASFADKIQSEVDNIKGLAGDR (intracellular Metridia pacifica 1v2 luciferase with RCAD  substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 724] NSDADRGKMPGKKLPLEVLIEMEANARKAGCTRGCLICLSKIKCTAKMKV YIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKELGPMEQFIAQVDRCADCTTGCLKGLANV KCSDLLKKWLPDRCASFADKIQSEVDNIKGLAGDR (intracellular Metridia pacifica 1v3 luciferase with RCAD substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 726] NTDSNRGKMPGKKLPLAVLIEMEANAFKAGCTRGCLICLSKIKCTAKMKK YIPGRCHDYGGDKKTGQAGIVGAIVDIPDISGFKEMGPMEQFIAQVDRCADCTTGCLKGLAN VKCSDLLKKWLPDRCASFADKIQSEVHNIKGLAGDR (intracellular Metridia longa 39 luciferase with RCAD substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 728] NNDVNRGKMPGKKLPLEVLIEMEANAFKAGCTRGCLICLSKIKCTAKMKQ YIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMEPMEQFIAQVDRCADCTTGCLKGLAN VKCSDLLKKWLPDRCASFADKIQKEAHNIKGLAGDR (intracellular Metridia longa 7 luciferase with RCAD  substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 730] ETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMK VYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDRCADCTTGCLKGLA NVKCSDLLKKWLPDRCASFADKIQKEVHNIKGMAGDR (intracellular Metridia longa GS luciferase with RCAD  substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 732] ETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMK VYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDRCADCTTGCLKGLA NVKCSDLLKKWLPDRCASFADKIQKEVHNIKGMAGDR (intracellular Metridia longa 164M3 luciferase with RCAD  substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 734] ETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMK VYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDRCADCTTGCLKGLA NVKCSDLLKKWLPDRCASFADKIQKEVHNIKGMAGDR (intracellular Metridia longa 164v1 luciferase with RCAD  substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 736] ETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMK VYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVERCADCTTGCLKGLA NVKCSDLLKKWLPDRCASFADKIQKEVHNIKGMAGDR (intracellular Metridia longa 164v2 luciferase with RCAD  substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 738] ETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMK VYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDRCADCTTGCLKGLA NVKCSDLLKKWLPDRCASFADKIQKEVHNIKGMAGDR (intracellular Metridia longa 164v2 luciferase with RCAD  substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 740] ETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMK VYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDRCADCTTGCLKGLA NVKCSDLLKKWLPDRCASFADKIQKEVHNIKGMAGDR (intracellular Metridia longa 45 luciferase with RCAD  substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 742] ETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMK VYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMEPMEQFIAQVDRCADCNTGCLKGLA NVKCSDLLKKWLPDRCASFADKIQKEVHNIKGMAGDR (intracellular Metridia longa 52 luciferase with RCAD  substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 744] ETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMK VYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDRCADCTTGCLKGLA NVKCSDLLKKWLPGRCASFADKIQKEVHNIKGMAGDR (intracellular Metridia longa AL luciferase with RCAD  substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 746] DLDADRGKLPGKKLPLEVLKEMEANARKAGCTRGCLICLSHIKCTPKMKK FIPGRCADYEGDKESAQGGIGEAIVDEPEIPGFKDLEPMEQFIAQVDRCADCTTGCLKGLANV KCSDLLKKWLPQRCATFASKIQGQVDKIKGAGGD (intracellular Gaussia princeps Prolume luciferase with RCAD  substitution at C₅ and at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 748] DLDADRGKLPGKKLPLEVLKEMEANARKAGCTRGCLICLSHIKCTPKMKK FIPGRCADYEGDKESAQGGIGEAIVDIPEIPGFKDLEPMEQFIAQVDRCADCTTGCLKGLANV KCSDLLKKWLPQRCATFASKIQGQVDKIKGAGGDKDEL (intracellular Gaussia princeps Prolume KDEL luciferase with RCAD  substitution at C₅ and at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 750] DLDADRGKLPGKKLPLEVLKEIEANARKAGCTRGCLICLSHIKCTPKMKKF IPGRCADYEGDKESAQGGIGEAIVDIPEIPGFKDLEPMEQFIAQVDRCADCTTGCLKGLANV KCSDLLKKWLPQRCATFASKIQGQVDKIKGAGGD (intracellular Gaussia princeps Mutant 1 luciferase with RCAD  substitution at C₅ and at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 752] DLDADRGKLPGKKLPLEVLKELEANARKAGCTRGCLICLSHIKCTPKMKK FIPGRCADYEGDKESAQGGIGEAIVDIPEIPGFKDLEPLEQFIAQVDRCADCTTGCLKGLANV KCSDLLKKWLPQRCATFASKIQGQVDKIKGAGGD (intracellular Gaussia princeps Mutant 2 luciferase with RCAD  substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 754] DLDADRGKLPGKKLPLEVLKEMEANARKAGCTRGCLICLSHIKCTPKMKK FIPGRCADYEGDKESAQGGIGEAIVDIPEIPGFKDLEPMEQFIAQVDRCADCTTGCLKGLANV KCSDLLKKWLPQRCATFASKIQGQVDKIKGAGGD (intracellular Gaussia princeps GS luciferase with RCAD  substitution at C₅ and at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 756] DVDANRGGHGGHPGKKMPKEVLVEMEANAKRAGCHRGCLICLSHLKCTK KMKKFIPGRCADYEGDKDSAQGGIGEEIVDMPEIPGFKDKEPMDQFIAQVDRCADCTTGCLK GLANVKCSDLLKKWLPSRCKTFASKIQSQVDTIKGLAGDR (intracellular Metridia pacifica 2a luciferase with RCAD  substitution at C₅ and at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 758] DVDANRGGHGGHPGKKMPKEVLVEMEANAKRAGCHRGCLICLSHIKCTK KMKKFIPGRCADYEGDKDSAQGGIGEEIVDMPEIPGFKDKEPMDQFIAQVDRCADCTTGCLK GLANVKCSDLLKKWLPSRCKTFASKIQSQVDTIKGLAGDR (intracellular Metridia pacifica 2bv1 luciferase with RCAD  substitution at C₅ and at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 760] DVDANRGGHGGHPGKKMPKEVPVEMEANAKRAGCHRGCLICLSHIKCTK KMKKFIPGRCADYEGDKDSAQGGIGEEIVDMPEIPGFKDKEPMDQFIAQVDRCADCTTGCLK GLANVKCSDLLKKWLPSRCKTFASKIQSQVDTIKGLAGDR (intracellular Metridia pacifica 2bv2 luciferase with RCAD  substitution at C₅ and at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 762] DVDANRGGHGGHPGKKMPKEVLMEMEANAKRAGCHRGCLVCLSHIKCT AQMQKFIPGRCADYAGDKDSAQGGIAGGAIVDIPEIAGFKEMKPMEQFIAQVDRCADCTTGC LKGLANVKCSDLLKKWLPSRCKTFASKIQSQVDTIKGLAGDR (intracellular Metridia longa 22 luciferase with RCAD  substitution at C₅ and at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 764] NSDADRGKMPGKKLPLEVLIEMEANARKAGCTRGCLICLSKIKCTAKMKV YIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKELGPMEQFIAQVDRCADCTTGCLKGLANV KCSDLLKKWLPDRCASFADKIQSEVDNIKGLAGDR (intracellular Metridia pacifica 1v1 luciferase with RCAD  substitution at C₅ and at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 766] NSDADRGKMPGKKLPLEVLIEMEANARKAGCTRGCLICLSKIKCTAKMKV YIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKELGPMEQFIAQVDRCADCTTGCLKGLANV KCSDLLKKWLPDRCASFADKIQSEVDNIKGLAGDR (intracellular Metridia pacifica 1v2 luciferase with RCAD  substitution at C₅ and at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 768] NSDADRGKMPGKKLPLEVLIEMEANARKAGCTRGCLICLSKIKCTAKMKV YIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKELGPMEQFIAQVDRCADMGCLKGLANV KCSDLLKKWLPDRCASFADKIQSEVDNIKGLAGDR (intracellular Metridia pacifica 1v3 luciferase with RCAD  substitution at C₅ and at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 770] NTDSNRGKMPGKKLPLAVLIEMEANAFKAGCTRGCLICLSKIKCTAKMKK YIPGRCADYGGDKKTGQAGIVGAIVDIPDISGFKEMGPMEQFIAQVDRCADCTTGCLKGLAN VKCSDLLKKWLPDRCASFADKIQSEVHNIKGLAGDR (intracellular Metridia longa 39 luciferase with RCAD  substitution at C₅ and at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 772] NNDVNRGKMPGKKLPLEVLIEMEANAFKAGCTRGCLICLSKIKCTAKMKQ YIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKEMEPMEQFIAQVDRCADCTTGCLKGLAN VKCSDLLKKWLPDRCASFADKIQKEAHNIKGLAGDR (intracellular Metridia longa 7 luciferase with RCAD  substitution at C₅ and at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 774] ETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMK VYIPGRCADYGGDKKTGQAGIVGANDIPEISGFKEMAPMEQFIAQVDRCADCTTGCLKGLA NVKCSDLLKKWLPDRCASFADKIQKEVHNIKGMAGDR (intracellular Metridia longa GS luciferase with RCAD  substitution at C₅ and at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 776] ETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMK VYIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDRCADCTTGCLKGLA NVKCSDLLKKWLPDRCASFADKIQKEVHNIKGMAGDR (intracellular Metridia longa 164M3 luciferase with RCAD  substitution at C₅ and at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 778] ETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMK VYIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDRCADCTTGCLKGLA NVKCSDLLKKWLPDRCASFADKIQKEVHNIKGMAGDR (intracellular Metridia longa 164v1 luciferase with RCAD  substitution at C₅ and at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 780] ETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMK VYIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVERCADCTTGCLKGLA NVKCSDLLKKWLPDRCASFADKIQKEVHNIKGMAGDR (intracellular Metridia longa 164v2 luciferase with RCAD  substitution at C₅ and at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 782] ETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMK VYIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDRCADCTTGCLKGLA NVKCSDLLKKWLPDRCASFADKIQKEVHNIKGMAGDR (intracellular Metridia longa 16 luciferase with RCAD  substitution at C₅ and at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 784] ETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMK VYIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKEMEPMEQFIAQVDRCADCTTGCLKGLA NVKCSDLLKKWLPDRCASFADKIQKEVHNIKGMAGDR (intracellular Metridia longa 45 luciferase with RCAD  substitution at C₅ and at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 786] ETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMK VYIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKEMEPMEQFIAQVDRCADCNTGCLKGLA NVKCSDLLKKWLPDRCASFADKIQKEVHNIKGMAGDR (intracellular Metridia longa 52 luciferase with RCAD  substitution at C₅ and at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 788] ETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCTAKMK VYIPGRCADYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDRCADCTTGCLKGLA NVKCSDLLKKWLPGRCASFADKIQKEVHNIKGMAGDR (intracellular Metridia longa AL luciferase with RCAD  substitution at C₅ and at C₆ and with KCSD substitution at C₉); or

(b) an amino acid sequence that shares at least 70% (and at least 71% to at least 99% and all integer percentages in between) sequence similarity or sequence identity with the sequence set forth in any one of SEQ ID NO: 482, 484, 486, 488, 490, 492, 494, 496, 498, 500, 502, 504, 506, 508, 510, 512, 514, 516, 518, 520, 522, 524, 526, 528, 530, 532, 534, 536, 538, 540, 542, 544, 546, 548, 550, 552, 554, 556, 558, 560, 562, 564, 566, 568, 570, 572, 574, 576, 578, 580, 582, 584, 586, 588, 590, 592, 594, 596, 598, 600, 602, 604, 606, 608, 610, 612, 614, 616, 618, 620, 622, 624, 626, 628, 630, 632, 634, 636, 638, 640, 642, 644, 646, 648, 650, 652, 654, 656, 658, 660, 662, 664, 666, 668, 670, 672, 674, 676, 678, 680, 682, 684, 686, 688, 690, 692, 694, 696, 698, 700, 702, 704, 706, 708, 710, 712, 714, 716, 718, 720, 722, 724, 726, 728, 730, 732, 734, 736, 738, 740, 742, 744, 746, 748, 750, 752, 754, 756, 758, 760, 762, 764, 766, 768, 780, 782, 784, 786 or 788, wherein the amino acid sequence comprises at least one subsequence corresponding to B₁C₅X₁₈X₁₉, X₃₇C₆X₃₈X₃₉ or X₄₁C₉ΣX₄₂ of formula X, wherein an individual subsequence consists of an amino acid sequence represented by formula XI as defined above; or

(c) an amino acid sequence which is encoded by the nucleotide sequence set forth in any one of:

[SEQ ID NO: 481] gayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargtnytnaargaratggargcnaa ygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaaratgaaraarttyathccnggnmg ntgygcngaytaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathccngarathccnggnttyaargay ytngarccnatggarcarttyathgcncargtngayytntgygtngaytgyacnacnggntgyytnaarggnytngcnaaygtncartgywsn gayytnytnaaraartggytnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaarathaarggngcnggnggng ay (nucleotide sequence encoding intracellular Gaussia princeps Prolume luciferase with RCAD substitution at C₅); [SEQ ID NO: 483] gayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargtnytnaargaratggargcnaa ygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaaratgaaraarttyathccnggnmg ntgygcngaytaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathccngarathccnggnttyaargay ytngarccnatggarcarttyathgcncargtngayytntgygtngaytgyacnacnggntgyytnaarggnytngcnaaygtncartgywsn gayytnytnaaraartggytnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaarathaarggngcnggnggng ayaargaygarytn (nucleotide sequence encoding intracellular Gaussia princeps Prolume KDEL luciferase with RCAD substitution at C₅); [SEQ ID NO: 485] gayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargtnytnaargarathgargcnaa ygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaaratgaaraarttyathccnggnmg ntgygcngaytaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathccngarathccnggnttyaargay ytngarccnatggarcarttyathgcncargtngayytntgygtngaytgyacnacnggntgyytnaarggnytngcnaaygtncartgywsn gayytnytnaaraartggytnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaarathaarggngcnggnggng ay (nucleotide sequence encoding intracellular Gaussia princeps Mutant 1 luciferase with RCAD substitution at C₅); [SEQ ID NO: 487] gayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargtnytnaargarytngargcnaa ygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaaratgaaraarttyathccnggnmg ntgygcngaytaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathccngarathccnggnttyaargay ytngarccnytngarcarttyathgcncargtngayytntgygtngaytgyacnacnggntgyytnaarggnytngcnaaygtncartgywsn gayytnytnaaraartggytnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaarathaarggngcnggnggng ay (nucleotide sequence encoding intracellular Gaussia princeps Mutant 2 luciferase with RCAD substitution at C₅); [SEQ ID NO: 489] gayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargtnytnaargaratggargcnaa ygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaaratgaaraarttyathccnggnmg ntgygcngaytaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathccngarathccnggnttyaargay ytngarccnatggarcarttyathgcncargtngayytntgygtngaytgyacnacnggntgyytnaarggnytngcnaaygtncartgywsn gayytnytnaaraartggytnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaarathaarggngcnggnggng ay (nucleotide sequence encoding intracellular Gaussia princeps GS luciferase with RCAD substitution at C₅); [SEQ ID NO: 491] gaygtngaygcnaaymgnggnggncayggnggncayccnggnaaraaratgccnaargargtnytngtngar atggargcnaaygcnaarmgngcnggntgycaymgnggntgyytnathtgyytnwsncayathaartgyacnaaraaratgaaraarttyat hccnggnmgntgygcngaytaygarggngayaargaywsngcncarggnggnathggngargarathgtngayatgccngarathccng gnttyaargayaargarccnatggaycarttyathgcncargtngayytntgygtngaytgyacnacnggntyytnaarggnytngcnaaygt ncaytgywsngcnytnytnaaraartggytnccnwsnmgntgyaaracnttygcnwsnaarathcarwsncargtngayacnathaarggn ytngcnggngaymgn (nucleotide sequence encoding intracellular Metridia pacifica 2a luciferase with RCAD substitution at C₅); [SEQ ID NO: 493] gaygtngaygcnaaymgnggnggncayggnggncayccnggnaaraaratgccnaargargtnytngtngar atggargcnaaygcnaarmgngcnggntgycaymgnggntgyytnathtgyytnwsncayathaartgyacnaaraaratgaaraarttyat hccnggnmgntgygcngaytaygarggngayaargaywsngcncarggnggnathggngargarathgtngayatgccngarathccng gnttyaargayaargarccnatggaycarttyathgcncargtngayytntgygtngaytgyacnacnggntgyytnaarggnytngcnaaygt ncaytgywsngayytnytnaaraartggytnccnwsnmgntgyaaracnttygcnwsnaarathcarwsncargtngayacnathaarggn ytngcnggngaymgn (nucleotide sequence encoding intracellular Metridia pacifica 2bv1 luciferase with RCAD substitution at C₅); [SEQ ID NO: 495] gaygtngaygcnaaymgnggnggncayggnggncayccnggnaaraaratgccnaargargtnccngtngar atggargcnaaygcnaarmgngcnggntgycaymgnggntgyytnathtgyytnwsncayathaartgyacnaaraaratgaaraarttyat hccnggnmgntgygcngaytaygarggngayaargaywsngcncarggnggnathggngargarathgtngayatgccngarathccng gnttyaargayaargarccnatggaycarttyathgcncargtngayytntgygtngaytgyacnacnggntgyytnaarggnytngcnaaygt ncaytgywsngayytnytnaaraartggytnccnwsnmgntgyaaracnttygcnwsnaarathcarwsncargtngayacnathaarggn ytngcnggngaymgn (nucleotide sequence encoding intracellular Metridia pacifica 2bv2 luciferase with RCAD substitution at C₅); [SEQ ID NO: 497] gaygtngaygcnaaymgnggnggncayggnggncayccnggnaaraaratgccnaargargtnytnatggara tggargcnaaygcnaarmgngcnggntgycaymgnggntgyytngtntgyytnwsncayathaartgyacngcncaratgcaraarttyat hccnggnmgntgygcngaytaygcnggngayaargaywsngcncarggnggnathgcnggnggngcnathgtngayathccngarath gcnggnttyaargaratgaarccnatggarcarttyathgcncargtngayytntgygargaytgyacnacnggntgyytnaarggnytngcna aygtncaytgywsngayytnytnaaraartggytnccnwsnmgntgyaaracnttygcnwsnaarathcarwsncargtngayacnathaa rggnytngcnggngaymgn (nucleotide sequence encoding intracellular Metridia longa 22 luciferase with RCAD substitution at C₅); [SEQ ID NO: 499] aaywsngaygcngaymgnggnaaratgccnggnaaraarytnccnytngargtnytnathgaratggargcnaa ygcnmgnaargcnuntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmg ntgygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargar ytnggnccnatggarcarttyathgcncargtngayytntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgyws ngcnytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcarwsngargtngayaayathaarggnytngcnggn gaymgn (nucleotide sequence encoding intracellular Metridia pacifica 1v1 luciferase with RCAD substitution at C₅); [SEQ ID NO: 501] aaywsngaygcngaymgnggnaaratgccnggnaaraarytnccnytngargtnytnathgaratggargcnaa ygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmg ntgygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargar ytnggnccnatggarcarttyathgcncargtngayytntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgyws ngcnytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcarwsngargtngayaayathaarggnytngcnggn gaymgn (nucleotide sequence encoding intracellular Metridia pacifica 1v2 luciferase with RCAD substitution at C₅); [SEQ ID NO: 503] aaywsngaygcngaymgnggnaaratgccnggnaaraarytnccnytngargtnytnathgaratggargcnaa ygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmg ntgygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargar ytnggnccnatggarcarttyathgcncargtngayytntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgyws ngcnytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcarwsngargtngayaayathaarggnytngcnggn gaymgn (nucleotide sequence encoding intracellular Metridia pacifica 1v3 luciferase with RCAD substitution at C₅); [SEQ ID NO: 505] aayacngaywsnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnytnathgaratggargcna aygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaaraartayathccnggnmg ntgygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngayathwsnggnttyaargar atgggnccnatggarcarttyathgcncargtngaymgntgyacngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgyws ngarytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcarwsngargtncayaayathaarggnytngcnggn gaymgn (nucleotide sequence encoding intracellular Metridia longa 39 luciferase with RCAD substitution at C₅); [SEQ ID NO: 507] aayaaygaygtnaaymgnggnaaratgccnggnaaraarytnccnytngargtnytnathgaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaarcartayathccnggnmgnt gygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggarccnatggarcarttyathgcncargtngayytntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsng arytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargcncayaayathaarggnytngcnggngay mgn (nucleotide sequence encoding intracellular Metridia longa 7 luciferase with RCAD substitution at C₅); [SEQ ID NO: 509] garacngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnanmgnt gygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggcnccnatggarcarttyathgcncargtngaymgntgygcnwsntgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsn garytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggnga ymgn (nucleotide sequence encoding intracellular Metridia longa GS luciferase with RCAD substitution at C₅); [SEQ ID NO: 511] garacngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgnt gygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggcnccnatggarcarttyathgcncargtngaymgntgygcnwsntgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsn garytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggnga ymgn (nucleotide sequence encoding intracellular Metridia longa 164M3 luciferase with RCAD substitution at C₅); [SEQ ID NO: 513] garacngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgnt gygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggcnccnatggarcarttyathgcncargtngaymgntgygcnwsntgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsn garytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggnga ymgn (nucleotide sequence encoding intracellular Metridia longa 164v1 luciferase with RCAD substitution at C₅); [SEQ ID NO: 515] garacngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgnt gygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggcnccnatggarcarttyathgcncargtngarmgntgygcnwsntgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsn garytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggnga ymgn (nucleotide sequence encoding intracellular Metridia longa 164v2 luciferase with RCAD substitution at C₅); [SEQ ID NO: 517] garacngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgnt gygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggcnccnatggarcarttyathgcncargtngaymgntgyacnwsntgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsn garytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggnga ymgn (nucleotide sequence encoding intracellular Metridia longa 164v2 luciferase with RCAD substitution at C₅); [SEQ ID NO: 519] garacngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgnt gygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggarccnatggarcarttyathgcncargtngaymgntgygcnwsntgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsn garytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggnga ymgn (nucleotide sequence encoding intracellular Metridia longa 45 luciferase with RCAD substitution at C₅); [SEQ ID NO: 521] garacngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgnt gygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggarccnatggarcarttyathgcncargtngaymgntgygcnwsntgyaayacnggntgyytnaarggnytngcnaaygtnaartgywsn garytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggnga ymgn (nucleotide sequence encoding intracellular Metridia longa 52 luciferase with RCAD substitution at C₅) [SEQ ID NO: 523] garacngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgnt gygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggcnccnatggarcarttyathgcncargtngayytntgygcnacntgyacnacnggntgyytnaarggnytngcnaaygtnaangywsng arytnytnaaraartggytnccnggnmgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggngay mgn (nucleotide sequence encoding intracellular Metridia longa AL luciferase with RCAD substitution at C₅); [SEQ ID NO: 525] gayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargtnytnaargaratggargcnaa ygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaaratgaaraarttyathccnggnmg ntgycayacntaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathccngarathccnggnttyaargay ytngarccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtncartgyws ngayytnytnaaraartggytnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaarathaarggngcnggnggn gay (nucleotide sequence encoding intracellular Gaussia princeps Prolume luciferase with RCAD substitution at C₆); [SEQ ID NO: 527] gayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargtnytnaargaratggargcnaa ygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaaratgaaraarttyathccnggnmg ntgycayacntaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathccngarathccnggnttyaargay ytngarccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtncartgyws ngayytnytnaaraartggytnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaarathaarggngcnggnggn gayaargaygarytn (nucleotide sequence encoding intracellular Gaussia princeps Prolume KDEL luciferase with RCAD substitution at C₆); [SEQ ID NO: 529] gayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargtnytnaargarathgargcnaa ygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaaratgaaraarttyathccnggnmg ntgycayacntaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathccngarathccnggnttyaargay ytngarccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtncartgyws ngayytnytnaaraartggytnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaarathaarggngcnggnggn gay (nucleotide sequence encoding intracellular Gaussia princeps Mutant 1 luciferase with RCAD substitution at C₆); [SEQ ID NO: 531] gayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargtnytnaargarytngargcnaa ygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaaratgaaraarttyathccnggnmg ntgycayacntaygarggngayaargarwsngcncarggnggrnathggngargcnathgtngayathccngarathccnggnttyaargay ytngarccnytngarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtncartgyws ngayytnytnaaraartggytnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaarathaarggngcnggnggn gay (nucleotide sequence encoding intracellular Gaussia princeps Mutant 2 luciferase with RCAD substitution at C₆); [SEQ ID NO: 533] gayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargtnytaargaratggargcnaa ygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaaratgaaraarttyathccnggnmg ntgycayacntaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathccngarathccnggnttyaargay ytngarccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtncartgyws ngayytnytnaaraartggytnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaarathaarggngcnggnggn gay (nucleotide sequence encoding intracellular Gaussia princeps GS luciferase with RCAD substitution at C₆); [SEQ ID NO: 535] gaygtngaygcnaaymgnggnggncayggnggncayccnggnaaraaratgccnaargargtnytngtngar atggargcnaaygcnaarmgngcnggntgycaymgnggntgyytnathtgyytnwsncayathaartgyacnaaraaratgaaraarttyat hccnggnmgntgycaywsntaygarggngayaargaywsngcncarggnggnathggngargarathgtngayatgccngarathccng gnttyaargayaargarccnatggaycarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaay gtncaytgywsngcnytnytnaaraartggytnccnwsnmgntgyaaracnttygcnwsnaarathcarwsncargtngayacnathaarg gnytngcnggngaymgn (nucleotide sequence encoding intracellular Metridia pacifica 2a luciferase with RCAD substitution at C₆); [SEQ ID NO: 537] gaygtngaygcnaaymgnggnggncayggnggncayccnggnaaraaratgccnaargargtnytngtngar atggargcnaaygcnaarmgngcnggntgycaymgnggntgyytnathtgyytnwsncayathaartgyacnaaraaratgaaraarttyat hccnggnmgntgycaywsntaygarggngayaargaywsngcncarggnggnathggngargarathgtngayatgccngarathccng gnttyaargayaargarccnatggaycarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaay gtncaytgywsngayytnytnaaraartggytnccnwsnmgntgyaaracnttygcnwsnaarathcarwsncargtngayacnathaarg gnytngcnggngaymgn (nucleotide sequence encoding intracellular Metridia pacifica 2bv1 luciferase with RCAD substitution at C₆); [SEQ ID NO: 539] gaygtngaygcnaaymgnggnggncayggnggncayccnggnaaraaratgccnaargargtnccngtngar atggargcnaaygcnaarmgngcnggntgycaymgnggntgyytnathtgyytnwsncayathaartgyacnaaraaratgaaraarttyat hccnggnmgntgycaywsntaygarggngayaargaywsngcncarggnggnathggngargarathgtngayatgccngarathccng gnttyaargayaargarccnatggaycarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaay gtncaytgywsngayytnytnaaraartggytnccnwsnmgntgyaaracnttygcnwsnaarathcarwsncargtngayacnathaarg gnytngcnggngaymgn (nucleotide sequence encoding intracellular Metridia pacifica 2bv2 luciferase with RCAD substitution at C₆); [SEQ ID NO: 541] gaygtngaygcnaaymgnggnggncayggnggncayccnggnaaraaratgccnaargargtnytnatggara tggargcnaaygcnaarmgngcnggntgycaymgnggntgyytngtntgyytnwsncayathaartgyacngcncaratgcaraarttyat hccnggnmgntgycaywsntaygcnggngayaargaywsngcncarggnggnathgcnggnggngcnathgtngayathccngarath gcnggnttyaargaratgaarccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcn aaygtncaytgywsngayytnytnaaraartggytnccnwsnmgntgyaaracnttygcnwsnaarathcarwsncargtngayacnatha arggnytngcnggngaymgn (nucleotide sequence encoding intracellular Metridia longa 22 luciferase with RCAD substitution at C₆); [SEQ ID NO: 543] aaywsngaygcngaymgnggnaaratgccnggnaaraarytnccnytngargtnytnathgaratggargcnaa ygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmg ntgycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargar ytnggnccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgyw sngcnytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcarwsngargtngayaayathaarggnytngcngg ngaymgn (nucleotide sequence encoding intracellular Metridia pacifica 1v1 luciferase with RCAD substitution at C₆); [SEQ ID NO: 545] aaywsngaygcngaymgnggnaaratgccnggnaaraarytnccnytngargtnytnathgaratggargcnaa ygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmg ntgycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargar ytnggnccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgyw sngcnytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathearwsngargtngayaayathaarggnytngcngg ngaymgn (nucleotide sequence encoding intracellular Metridia pacifica 1v2 luciferase with RCAD substitution at C₆); [SEQ ID NO: 547] aaywsngaygcngaymgnggnaaratgccnggnaaraarytnccnytngargtnytnathgaratggargcnaa ygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmg ntgycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargar ytnggnccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgyw sngcnytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcarwsngargtngayaayathaarggnytngcngg ngaymgn (nucleotide sequence encoding intracellular Metridia pacifica 1v3 luciferase with RCAD substitution at C₆); [SEQ ID NO: 549] aayacngaywsnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnytnathgaratggargcna aygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaaraartayathccnggnmg ntgycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngayathwsnggnttyaargar atgggnccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgyw sngarytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcarwsngargtncayaayathaarggnytngcngg ngaymgn (nucleotide sequence encoding intracellular Metridia longa 39 luciferase with RCAD substitution at C₆); [SEQ ID NO: 551] aayaaygaygtnaaymgnggnaaratgccnggnaaraarytnccnytngargtnytnathgaratggargcnaa ygcnttyaargcnantgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaarcartayathccnggnmgnt gycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggarccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygnaartgywsn garytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargcncayaayathaarggnytngcnggnga ymgn (nucleotide sequence encoding intracellular Metridia longa 7 luciferase with RCAD substitution at C₆); [SEQ ID NO: 553] garacngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgnt gycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggcnccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsn garytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggnga ymgn (nucleotide sequence encoding intracellular Metridia longa GS luciferase with RCAD substitution at C₆); [SEQ ID NO: 555] garacngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgnt gycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggcnccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsn garytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggnga ymgn (nucleotide sequence encoding intracellular Metridia longa 164M3 luciferase with RCAD substitution at C₆); [SEQ ID NO: 557] garacngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgnt gycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggcnccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsn garytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggnga ymgn (nucleotide sequence encoding intracellular Metridia longa 164v1 luciferase with RCAD substitution at C₆); [SEQ ID NO: 559] garacngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgnt gycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggcnccnatggarcarttyathgcncargingarmgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsn garytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggnga ymgn (nucleotide sequence encoding intracellular Metridia longa 164v2 luciferase with RCAD substitution at C₆); [SEQ ID NO: 561] garacngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgnt gycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggcnccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsn garytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggnga ymgn (nucleotide sequence encoding intracellular Metridia longa 16 luciferase with RCAD substitution at C₆); [SEQ ID NO: 563] garacngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgnt gycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggarccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsn garytnytnaaraartggymccngaymgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggnga ymgn (nucleotide sequence encoding intracellular Metridia longa 45 luciferase with RCAD substitution at C₆); [SEQ ID NO: 565] garacngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgnt gycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggarccnatggarcarttyathgcncargtngaymgntgygcngaytgyaayacnggntgyytnaarggnytngcnaaygtnaartgywsn garytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggnga ymgn (nucleotide sequence encoding intracellular Metridia longa 52 luciferase with RCAD substitution at C₆); [SEQ ID NO: 567] garacngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggrnmgnt gycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggcnccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsn garytnytnaaraartggytnccnggnmgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggnga ymgn (nucleotide sequence encoding intracellular Metridia longa AL luciferase with RCAD substitution at C₆); [SEQ ID NO: 569] gayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargtnytnaargaratggargcnaa ygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaaratgaaraarttyathccnggnmg ntgycayacntaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathccngarathccnggnttyaargay ytngarccnatggarcarttyathgcncargtngayytntgygtngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsn gayytnytnaaraartggytnccncarmigntgygcnacnttygcnwsnaarathcarggncargtngayaarathaarggngcnggnggng ay (nucleotide sequence encoding intracellular Gaussia princeps Prolume luciferase with KCSD substitution at C₉); [SEQ ID NO: 571] gayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargtnytnaargaratggargcnaa ygcnmgnaargcnggntgyacnmgnggntgyytnathtgyymwsncayathaartgyacnccnaaratgaaraarttyathccnggnmg ntgycayacntaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathccngarathccnggnttyaargay ytngarccnatggarcarttyathgcncargtngayytntgygtngaytgyacnacnggrntgyytnaarggnytngcnaaygtnaartgywsn gayytnytnaaraartggytnccncanmgntgygcnacnttygcnwsnaarathcarggncargtngayaarathaarggngcnggnggng ayaargaygarytn (nucleotide sequence encoding intracellular Gaussia princeps Prolume KDEL luciferase with KCSD substitution at C₉); [SEQ ID NO: 573] gayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargtnytnaargarathgargcnaa ygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaaratgaaraarttyathccnggnmg ntgycayacntaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathccngarathccnggnttyaargay ytngarccnatggarcarttyathgcncargtngayytntgygtngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsn gayytnytnaaraartggytnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaarathaarggngcnggnggng ay (nucleotide sequence encoding intracellular Gaussia princeps Mutant 1 luciferase with KCSD substitution at C₉); [SEQ ID NO: 575] gayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargtnytnaargarytngargcnaa ygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaaratgaaraarttyathccnggnmg ntgycayacntaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathccngarathccnggnttyaargay ytngarccnytngarcarttyathgcncargtngayytntgygtngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsn gayytnytnaaraartggytnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaarathaarggngcnggnggng ay (nucleotide sequence encoding intracellular Gaussia princeps Mutant 2 luciferase with KCSD substitution at C₉); [SEQ ID NO: 577] gayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargtnytnaargaratggargcnaa ygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaaratgaaraarttyathccnggnmg ntgycayacntaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathccngarathccnggnttyaargay ytngarccnatggarcarttyathgcncargtngayytntgygtngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsn gayytnytnaaraartggytnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaarathaarggngcnggnggng ay (nucleotide sequence encoding intracellular Gaussia princeps GS luciferase with KCSD substitution at C₉); [SEQ ID NO: 579] gaygtngaygcnaaymgnggnggncayggnggncayccnggnaaraaratgccnaargargtnytngtngar atggargcnaaygcnaarmgngcnggntgycaymgnggntgyytnathtgyytnwsncayathaartgyacnaaraaratgaaraarttyat hccnggnmgntgycaywsntaygarggngayaargaywsngcncarggnggnathggngargarathgtngayatgccngarathccng gnttyaargayaargarccnatggaycarttyathgcncargtngayytntgygtngaytgyacnacnggntgyytnaarggnytngcnaaygt naartgywsngayytnytnaaraartggytnccnwsnmgntgyaaracnttygcnwsnaarathcarwsncargtngayacnathaarggn ytngcnggngaymgn (nucleotide sequence encoding intracellular Metridia pacifica 2a luciferase with KCSD substitution at C₉); [SEQ ID NO: 581] gaygtngaygcnaaymgnggnggncayggnggncayccnggnaaraaratgccnaargargtnytngtngar atggargcnaaygcnaarmgngcnggntgycaymgnggntgyytnathtgyytnwsncayathaartgyacnaaraaratgaaraarttyat hccnggnmgntgycaywsntaygarggngayaargaywsngcncarggnggnathggngargarathgtngayatgccngarathccng gnttyaargayaargarccnatggaycarttyathgcncargtngayytntgygtngaytgyacnacnggntgyytnaarggnytngcnaaygt naartgywsngayytnytnaaraartggytnccnwsnmgntgyaaracnttygcnwsnaarathcarwsncargtngayacnathaarggn ytngcnggngaymgn (nucleotide sequence encoding intracellular Metridia pacifica 2bv1 luciferase with KCSD substitution at C₉); [SEQ ID NO: 583] gaygtngaygcnaaymgnggnggncayggnggncayccnggnaaraaratgccnaargargtnccngtngar atggargcnaaygcnaarmgngcnggntgycaymgnggntgyytnathtgyytnwsncayathaartgyacnaaraaratgaaraarttyat hccnggnmgntgycaywsntaygarggngayaargaywsngcncarggnggnathggngargarathgtngayatgccngarathccng gnttyaargayaargarccnatggaycarttyathgcncargtngayytntgygtngaytgyacnacnggntgyytnaarggnytngcnaaygt naartgywsngayytnytnaaraartggytnccnwsnmgntgyaaracnttygcnwsnaarathcarwsncargtngayacnathaarggn ytngcnggngaymgn (nucleotide sequence encoding intracellular Metridia pacifica 2bv2 luciferase with KCSD substitution at C₉); [SEQ ID NO: 585] gaygtngaygcnaaymgnggnggncayggnggncayccnggnaaraaratgccnaargargtnytnatggara tggargcnaaygcnaarmgngcnggntgycaymgnggntgyytngtntgyytnwsncayathaartgyacngcncaratgcaraarttyat hccnggnmgntgycaywsntaygcnggngayaargaywsngcncarggnggnathgcnggnggngcnathgtngayathccngarath gcnggnttyaargaratgaarccnatggarcarttyathgcncargtngayytntgygargaytgyacnacnggntgyytnaarggnytngcna aygtnaartgywsngayytnytnaaraartggytnccnwsnmgntgyaaracnttygcnwsnaarathcarwsncargtngayacnathaar ggnytngcnggngaymgn (nucleotide sequence encoding intracellular Metridia longa 22 luciferase with KCSD substitution at C₉); [SEQ ID NO: 587] aaywsngaygcngaymgnggnaaratgccnggnaaraarytnccnytngargtnytnathgaratggargcnaa ygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmg ntgycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargar ytnggnccnatggarcarttyathgcncargtngayytntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgyws ngayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcarwsngargtngayaayathaarggnytngcnggn gaymgn (nucleotide sequence encoding intracellular Metridia pacifica 1v1 luciferase with KCSD substitution at C₉); [SEQ ID NO: 589] aaywsngaygcngaymgnggnaaratgccnggnaaraarytnccnytngargtnytnathgaratggargcnaa ygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmg ntgycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargar ytnggnccnatggarcarttyathgcncargtngayytntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgyws ngayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcarwsngargtngayaayathaarggnytngcnggn gaymgn (nucleotide sequence encoding intracellular Metridia pacifica 1v2 luciferase with KCSD substitution at C₉); [SEQ ID NO: 591] aaywsngaygcngaymgnggnaaratgccnggnaaraarytnccnytngargtnytnathgaratggargcnaa ygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmg ntgycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargar ytnggnccnatggarcarttyathgcncargtngayytntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgyws ngayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcarwsngargtngayaayathaarggnytngcnggn gaymgn (nucleotide sequence encoding intracellular Metridia pacifica 1v3 luciferase with KCSD substitution at C₉); [SEQ ID NO: 593] aayacngaywsnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnytnathgaratggargcna aygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaaraartayathccnggnmg ntgycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngayathwsnggnttyaargar atgggnccnatggarcarttyathgcncargtngaymgntgyacngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgyws ngayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcarwsngargtncayaayathaarggnytngcnggn gaymgn (nucleotide sequence encoding intracellular Metridia longa 39 luciferase with KCSD substitution at C₉); [SEQ ID NO: 595] aayaaygaygtnaaymgnggnaaratgccnggnaaraarytnccnytngargtnytnathgaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaarcartayathccnggnmgnt gycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggarccnatggarcarttyathgcncargtngayytntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsng ayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargcncayaayathaarggnytngcnggnga ymgn (nucleotide sequence encoding intracellular Metridia longa 7 luciferase with KCSD substitution at C₉); [SEQ ID NO: 597] garacngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccngnmgnt gycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggcnccnatggarcarttyathgcncargtngaymgntgygcnwsntgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsn gayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggnga ymgn (nucleotide sequence encoding intracellular Metridia longa GS luciferase with KCSD substitution at C₉); [SEQ ID NO: 599] garacngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgnt gycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggcnccnatggarcarttyathgcncargtngaymgntgygcnwsntgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsn gayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggnga ymgn (nucleotide sequence encoding intracellular Metridia longa 164M3 luciferase with KCSD substitution at C₉); [SEQ ID NO: 601] garacngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgnt gycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggcnccnatggarcarttyathgcncargtngaymgntgygcnwsntgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsn gayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggnga ymgn (nucleotide sequence encoding intracellular Metridia longa 164v1 luciferase with KCSD substitution at C₉); [SEQ ID NO: 603] garacngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgnt gycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggcnccnatggarcarttyathgcncargtngarmgntgygcnwsntgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsn gayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggnga ymgn (nucleotide sequence encoding intracellular Metridia longa 164v2 luciferase with KCSD substitution at C₉); [SEQ ID NO: 605] garacngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgnt gycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggcnccnatggarcarttyathgcncargtngaymgntgyacnwsntgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsn gayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggnga ymgn (nucleotide sequence encoding intracellular Metridia longa 16 luciferase with KCSD substitution at C₉); [SEQ ID NO: 607] garacngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgnt gycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggarccnatggarcarttyathgcncargtngaymgntgygcnwsntgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsn gayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggnga ymgn (nucleotide sequence encoding intracellular Metridia longa 45 luciferase with KCSD substitution at C₉); [SEQ ID NO: 609] garacngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgnt gycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggarccnatggarcarttyathgcncargtngaymgntgygcnwsntgyaayacnggntgyytnaarggnytngcnaaygtnaartgywsn gayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggnga ymgn (nucleotide sequence encoding intracellular Metridia longa 52 luciferase with KCSD substitution at C₉); [SEQ ID NO: 611] garacngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgnt gycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggcnccnatggarcarttyathgcncargtngayytntgygcnacntgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsng ayytnytnaaraartggytnccnggnmgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggngay mgn (nucleotide sequence encoding intracellular Metridia longa AL luciferase with KCSD substitution at C₉); [SEQ ID NO: 613] gayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargtnytnaargaratggargcnaa ygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaaratgaaraarttyathccnggnmg ntgygcngaytaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathccngarathccnggnttyaargay ytngarccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtncartgyws ngayytnytnaaraartggytnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaarathaarggngcnggnggn gay (nucleotide sequence encoding intracellular Gaussia princeps Prolume luciferase with RCAD substitution at C₅ and at C₆); [SEQ ID NO: 615] gayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargtnytnaargaratggargcnaa ygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaaratgaaraarttyathccnggnmg ntgygcngaytaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathccngarathccnggnttyaargay ytngarccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtncartgyws ngayytnytnaaraartggytnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaarathaarggngcnggnggn gayaargaygarytn (nucleotide sequence encoding intracellular Gaussia princeps Prolume KDEL luciferase with RCAD substitution at C₅ and at C₆); [SEQ ID NO: 617] gayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargtnytnaargarathgargcnaa ygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaaratgaaraarttyathccnggnmg ntgygcngaytaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathccngarathccnggnttyaargay ytngarccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtncartgyws ngayytnytnaaraartggytnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaarathaarggngcnggnggn gay (nucleotide sequence encoding intracellular Gaussia princeps Mutant 1 luciferase with RCAD substitution at C₅ and at C₆); [SEQ ID NO: 619] gayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargtnytnaargarytngargcnaa ygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaaratgaaraarttyathccnggnmg ntgygcngaytaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathccngarathccnggnttyaargay ytngarccnytngarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtncartgyws ngayytnytnaaraartggytnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaarathaarggngcnggnggn gay (nucleotide sequence encoding intracellular Gaussia princeps Mutant 2 luciferase with RCAD substitution at C₅); [SEQ ID NO: 621] gayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargtnytnaargaratggargcnaa ygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaaratgaaraarttyathccnggnmg ntgygcngaytaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathccngarathccnggnttyaargay ytngarccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtncartgyws ngayytnytnaaraartggytnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaarathaarggngcnggnggn gay (nucleotide sequence encoding intracellular Gaussia princeps GS luciferase with RCAD substitution at C₅ and at C₆); [SEQ ID NO: 623] gaygtngaygcnaaymgnggnggncayggnggncayccnggnaaraaratgccnaargargtnytngtngar atggargcnaaygcnaarmgngcnggntgycaymgnggntgyytnathtgyytnwsncayathaartgyacnaaraaratgaaraarttyat hccnggnmgntgygcngaytaygarggngayaargaywsngcncarggnggnathggngargarathgtngayatgccngarathccng gnttyaargayaargarccnatggaycarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaay gtncaytgywsngcnytnytnaaraartggytnccnwsnmgntgyaaracnttygcnwsnaarathcarwsncargtngayacnathaarg gnytngcnggngaymgn (nucleotide sequence encoding intracellular Metridia pacifica 2a luciferase with RCAD substitution at C₅ and at C₆); [SEQ ID NO: 625] gaygtngaygcnaaymgnggnggncayggnggncayccnggnaaraaratgccnaargargtnytngtngar atggargcnaaygcnaarmgngcnggntgycaymgnggntgyytnathtgyytnwsncayathaartgyacnaaraaratgaaraarttyat hccnggnmgntgygcngaytaygarggngayaargaywsngcncarggnggnathggngargarathgtngayatgccngarathccng gnttyaargayaargarccnatggaycarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaay gtncaytgywsngayytnytnaaraartggytnccnwsnmgntgyaaracnttygcnwsnaarathcarwsncargtngayacnathaarg gnytngcnggngaymgn (nucleotide sequence encoding intracellular Metridia pacifica 2bv1 luciferase with RCAD substitution at C₅ and at C₆); [SEQ ID NO: 627] gaygtngaygcnaaymgnggnggncayggnggncayccnggnaaraaratgccnaargargtnccngtngar atggargcnaaygcnaarmgngcnggntgycaymgnggntgyytnathtgyytnwsncayathaartgyacnaaraaratgaaraarttyat hccnggnmgntgygcngaytaygarggngayaargaywsngcncarggnggnathggngargarathgtngayatgccngarathccng gnttyaargayaargarccnatggaycarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaay gtncaytgywsngayytnytnaaraartggytnccnwsnmgntgyaaracnttygcnwsnaarathcarwsncargtngayacnathaarg gnytngcnggngaymgn (nucleotide sequence encoding intracellular Metridia pacifica 2bv2 luciferase with RCAD substitution at C₅ and at C₆); [SEQ ID NO: 629] gaygtngaygcnaaymgnggnggncayggnggncayccnggnaaraaratgccnaargargtnytnatggara tggargcnaaygcnaarmgngcnggntgycaymgnggntgyytngtntgyytnwsncayathaartgyacngcncaratgcaraarttyat hccnggnmgntgygcngaytaygcnggngayaargaywsngcncarggnggnathgcnggnggngcnathgtngayathccngarath gcnggnttyaargaratgaarccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcn aaygtncaytgywsngayytnytnaaraartggytnccnwsnmgntgyaaracnttygcnwsnaarathcarwsncargtngayacnatha arggnytngcnggngaymgn (nucleotide sequence encoding intracellular Metridia longa 22 luciferase with RCAD substitution at C₅ and at C₆); [SEQ ID NO: 631] aaywsngaygcngaymgnggnaaratgccnggnaaraarytnccnytngargtnytnathgaratggargcnaa ygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmg ntgygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargar ytnggnccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgyw sngcnytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcarwsngargtngayaayathaarggnytngcngg ngaymgn (nucleotide sequence encoding intracellular Metridia pacifica 1v1 luciferase with RCAD substitution at C₅ and at C₆); [SEQ ID NO: 633] aaywsngaygcngaymgnggnaaratgccnggnaaraarytnccnytngargtnytnathgaratggargcnaa ygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmg ntgygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargar ytnggnccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgyw sngcnytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcarwsngargtngayaayathaarggnytngcngg ngaymgn (nucleotide sequence encoding intracellular Metridia pacifica 1v2 luciferase with RCAD substitution at C₅ and at C₆); [SEQ ID NO: 635] aaywsngaygcngaymgnggnaaratgccnggnaaraarytnccnytngargtnytnathgaratggargcnaa ygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmg ntgygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargar ytnggnccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgyw sngcnytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcarwsngargtngayaayathaarggnytngcngg ngaymgn (nucleotide sequence encoding intracellular Metridia pacifica 1v3 luciferase with RCAD substitution at C₅ and at C₆); [SEQ ID NO: 637] aayacngaywsnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnytnathgaratggargcna aygcnttyaargcnggntgyacnmgnantgyytnathtgyytnwsnaarathaartgyacngcnaaratgaaraartayathccnggnmg ntgygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngayathwsnggnttyaargar atgggnccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgyw sngarytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcarwsngargtncayaayathaarggnytngcngg ngaymgn (nucleotide sequence encoding intracellular Metridia longa 39 luciferase with RCAD substitution at C₅ and at C₆); [SEQ ID NO: 639] aayaaygaygtnaaymgnggnaaratgccnggnaaraarytnccnytngargtnytnathgaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaarcartayathccnggnmgnt gygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggarccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsn garytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargcncayaayathaarggnytngcnggnga ymgn (nucleotide sequence encoding intracellular Metridia longa 7 luciferase with RCAD substitution at C₅ and at C₆); [SEQ ID NO: 641] garacngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgnt gygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggcnccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsn garytnytnaaraartggytnccngaymgmtgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggnga ymgn (nucleotide sequence encoding intracellular Metridia longa GS luciferase with RCAD substitution at C₅ and at C₆); [SEQ ID NO: 643] garacngaycnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgnt gygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggcnccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsn garytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggnga ymgn (nucleotide sequence encoding intracellular Metridia longa 164M3 luciferase with RCAD substitution at C₅ and at C₆); [SEQ ID NO: 645] garacngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgnt gygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggcnccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaaartgywsn garytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggnga ymgn (nucleotide sequence encoding intracellular Metridia longa 164v1 luciferase with RCAD substitution at C₅ and at C₆); [SEQ ID NO: 647] garacngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgnt gygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggcnccnatggarcarttyathgcncargtngarmgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsn garytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggnga ymgn (nucleotide sequence encoding intracellular Metridia longa 164v2 luciferase with RCAD substitution at C₅ and at C₆); [SEQ ID NO: 649] garacngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgnt gygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggcnccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsn garytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggnga ymgn (nucleotide sequence encoding intracellular Metridia longa 16 luciferase with RCAD substitution at C₅ and at C₆); [SEQ ID NO: 651] garacngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgnt gygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggarccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsn garytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggnga ymgn (nucleotide sequence encoding intracellular Metridia longa 45 luciferase with RCAD substitution at C₅ and at C₆); [SEQ ID NO: 653] garacngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgnt gygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnunttyaargarat ggarccnatggarcarttyathgcncargtngaymgntgygcngaytgyaayacnggntgyytnaarggnytngcnaaygtnaartgywsn garytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggnga ymgn (nucleotide sequence encoding intracellular Metridia longa 52 luciferase with RCAD substitution at C₅ and at C₆); [SEQ ID NO: 655] garacngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgnt gygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggcnccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsn garytnytnaaraartggytnccnggnmptgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggnga ymgn (nucleotide sequence encoding intracellular Metridia longa AL luciferase with RCAD substitution at C₅ and at C₆); [SEQ ID NO: 657] gayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargtnytnaargaratggargcnaa ygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaaratgaaraarttyathccnggnmg ntgygcngaytaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathccngarathccnggnttyaargay ytngarccnatggarcarttyathgcncargtngayytntgygtngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsn gayytnytnaaraartggytnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaarathaarggngcnggnggng ay (nucleotide sequence encoding intracellular Gaussia princeps Prolume luciferase with RCAD substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 659] gayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargtnytnaargaratggargcnaa ygcnmgnaargcnggntgyacnmgnuntgyytnathtgyytnwsncayathaartgyacnccnaaratgaaraarttyathccnggnmg ntgygcngaytaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathcccngarathccnggnttyaargay ytngarccnatggarcarttyathgcncargtngayytntgygtngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsn gayytnytnaaraartggytnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaarathaarggngcnggnggng ayaargaygarytn (nucleotide sequence encoding intracellular Gaussia princeps Prolume KDEL luciferase with RCAD substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 661] gayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargtnytnaargarathgargcnaa ygcnmgnaargcnggntgyacnmgnuntgyytnathtgyytnwsncayathaartgyacnccnaaratgaaraarttyathccnggnmg ntgygcngaytaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathccngarathccnggnttyaargay ytngarccnatggarcarttyathgcncargtngayytntgygtngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsn gayytnytnaaraartggytnccncarmgntgygcnacnttygcnwsnaamthcarggncargtngayaarathaarggngcnggnggng ay (nucleotide sequence encoding intracellular Gaussia princeps Mutant 1 luciferase with RCAD substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 663] gayytngaygcngaymgnggnaarytncCnggnaaraarytnccnytngargtnytnaargarytngargcnaa ygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaaratgaaraarttyathccnggnmg ntgygcngaytaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathccngarathccnggnttyaargay ytngarccnytngarcarttyathgcncargtngayytntgygtngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsn gayytnytnaaraartggytnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaarathaarggngcnggnggng ay (nucleotide sequence encoding intracellular Gaussia princeps Mutant 2 luciferase with RCAD substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 665] gayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargtnytnaargaratggargcnaa ygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaaratgaaraarttyathccnggnmg ntgygcngaytaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathccngarathccnggnttyaargay ytngarccnatggarcarttyathgcncargtngayytntgygtngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsn gayytnytnaaraartggytnccncarmptgygcnacnttygcnwsnaarathcarggncargtngayaarathaarggngcnggnggng ay (nucleotide sequence encoding intracellular Gaussia princeps GS luciferase with RCAD substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 667] gaygtngaygcnaaymgnggnggncayggnggncayccnggnaaraaratgccnaargargtnytngtngar atggargcnaaygcnaarmgngcngbmtgycaymgnggntgyytnathtgyytnwsncayathaartgyacnaaraaratgaaraarttyat hccnggnmgntgygcngaytaygarggngayaargaywsngcncarggnggnathggngargarathgtngayatgccngarathccng gnttyaargayaargarccnatggaycarttyathgcncargtngayytntgygtngaytgyacnacnggntgyytnaarggnytngcnaaygt naartgywsngayytnytnaaraartggytnccnwsnmgntgyaaracnttygcnwsnaarathcarwsncargtngayacnathaarggn ytngcnggngaymgn (nucleotide sequence encoding intracellular Metridia pacifica 2a luciferase with RCAD substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 669] gaygtngaygcnaaymgnggnggncayggnuncayccnggnaaraaratgccnaargargtnytngtngar atggargcnaaygcnaarmgngcnggntgycaymgnggntgyytnathtgyytnwsncayathaartgyacnaaraaratgaaraarttyat hccnggnmgntgygcngaytaygarggngayaargaywsngcncarggnggnathggngargarathgtngayatgccngarathccng gnttyaargayaargarccnatggaycarttyathgcncargtngayytntgygtngaytgyacnacnggntgyytnaarggnytngcnaaygt naartgywsngayytnytnaaraartggytnccnwsnmgntgyaaracnttygcnwsnaarathcarwsncargtngayacnathaarggn ytngcnggngaymgn (nucleotide sequence encoding intracellular Metridia pacifica 2bv1 luciferase with RCAD substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 671] gaygtngaygcnaaymgnggnggncayggnggncayccnggnaaraaratgccnaargargtnccngtngar atggargcnaaygcnaarmgngcnggntgycaymgnggntgyytnathtgyytnwsncayathaartgyacnaaraaratgaaraarttyat hccngpmgntgygcngaytaygarggngayaargaywsngcncarggnggnathggmgargarathgtngayatgccngarathccng gnttyaargayaargarccnatggaycarttyathgcncargtngayytntgygtngaytgyacnacnggntgyytnaarggnytngcnaaygt naartgywsngayytnytnaaraartggytnccnwsnmgntgyaaracnttygcnwsnaarathcarwsncargtngayacnathaarggn ytngcnggngaymgn (nucleotide sequence encoding intracellular Metridia pacifica 2bv2 luciferase with RCAD substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 673] gaygtngaygcnaaymgnggnggncayggnggncayccnggnaaraaratgccnaargargtnytnatggara tggargcnaaygcnaarmgngcnggntgycaymgnggntgyytngtntgyytnwsncayathaartgyacngcncaratgcaraarttyat hccnggnmgntgygcngaytaygcnggngayaargaywsngcncarggnggnathgcnggnggngcnathgtngayathccngarath gcnggnttyaargaratgaarccnatggarcarttyathgcncargtngayytntgygargaytgyacnacnggntgyytnaarggnytngcna aygtnaartgywsngayytnytnaaraartggytnccnwsnmgntgyaaracnttygcnwsnaarathcarwsncargtngayacnathaar ggnytngcnggngaymgn (nucleotide sequence encoding intracellular Metridia longa 22 luciferase with RCAD substitution at C₉ and with KCSD substitution at C₉); [SEQ ID NO: 675] aaywsngaygcngaymgnggnaaratgccnggnaaraarytnccnytngargtnytnathgaratggargcnaa ygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmg ntgygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargar ytnggnccnatggarcarttyathgcncargtngayytntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgyws ngayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcarwsngargtngayaayathaarggnytngcnggn gaymgn (nucleotide sequence encoding intracellular Metridia pacifica 1v1 luciferase with RCAD substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 677] aaywsngaygcngaymgnggnaaratgccnggnaaraarytnccnytngargtnytnathgaratggargcnaa ygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmg ntgygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargar ytnggnccnatggarcarttyathgcncargtngayytntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgyws ngayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcarwsngargtngayaayathaarggnytngcnggn gaymgn (nucleotide sequence encoding intracellular Metridia pacifica 1v2 luciferase with RCAD substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 679] aaywsngaygcngaymgnggnaaratgccnggnaaraarytnccnytngargtnytnathgaratggargcnaa ygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmg ntgygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargar ytnggnccnatggarcarttyathgcncargtngayytntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgyws ngayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcarwsngargtngayaayathaarggnytngcnggn gaymgn (nucleotide sequence encoding intracellular Metridia pacifica 1v3 luciferase with RCAD substitution at C₉ and with KCSD substitution at C₉); [SEQ ID NO: 681] aayacngaywsnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnytnathgaratggargcna aygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaaraartayathccnggnmg ntgygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngayathwsnggnttyaargar atgggnccnatggarcarttyathgcncargtngaymgntgyacngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgyws ngayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcarwsngargtncayaayathaarggnytngcnggn gaymgn (nucleotide sequence encoding intracellular Metridia longa 39 luciferase with RCAD substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 683] aayaaygaygtnaaymgnggnaaratgccnggnaaraarytnccnytngargtnytnathgaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaarcartayathccnggnmgnt gygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggarccnatggarcarttyathgcncargtngayytntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsng ayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargcncayaayathaarggnytngcnggnga ymgn (nucleotide sequence encoding intracellular Metridia longa 7 luciferase with RCAD substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 685] garacngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgnt gygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggcnccnatggarcarttyathgcncargtngaymgntgygcnwsntgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsn gayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggnga ymgn (nucleotide sequence encoding intracellular Metridia longa GS luciferase with RCAD substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 687] garacngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgnt gygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggcnccnatggarcarttyathgcncargtngaymgntgygcnwsntgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsn gayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggnga ymgn (nucleotide sequence encoding intracellular Metridia longa 164M3 luciferase with RCAD substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 689] garacngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgnt gygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggcnccnatggarcarttyathgcncargtngaymgntgygcnwsntgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsn gayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggnga ymgn (nucleotide sequence encoding intracellular Metridia longa 164v1 luciferase with RCAD substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 691] garacngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgnt gygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggcnccnatggarcarttyathgcncargtngarmgntgygcnwsntgyacnacnggntgyytnaarggnytngcnaaygtnaangywsn gayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggnga ymgn (nucleotide sequence encoding intracellular Metridia longa 164v2 luciferase with RCAD substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 693] garacngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgnt gygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggcnccnatggarcarttyathgcncargtngaymgntgyacnwsntgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsn gayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggnga ymgn (nucleotide sequence encoding intracellular Metridia longa 16 luciferase with RCAD substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 695] garacngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgnt gygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggarccnatggarcarttyathgcncargtngaymgntgygcnwsntgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsn gayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggnga ymgn (nucleotide sequence encoding intracellular Metridia longa 45 luciferase with RCAD substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 697] garacngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaaxtgyacngcnaaratgaargtntayathccnggnmgnt gygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggarccnatggarcarttyathgcncargtngaymgntgygcnwsntgyaayacnggrntgyytnaarggnytngcnaaygtnaartgywsn gayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggnga ymgn (nucleotide sequence encoding intracellular Metridia longa 52 luciferase with RCAD substitution at C₅ and with KCSD substitution at C₉),; [SEQ ID NO: 699] garacngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgnt gygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggcnccnatggarcarttyathgcncargtngayytntgygcnacntgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsng ayytnytnaaraartggytnccnggnmgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggngay mgn (nucleotide sequence encoding intracellular Metridia longa AL luciferase with RCAD substitution at C₉ and with KCSD substitution at C₉); [SEQ ID NO: 701] gayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargtnytnaargaratggargcnaa ygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaaratgaaraarttyathccnggnmg ntgycayacntaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathccngarathccnggnttyaargay ytngarccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgyws ngayytnytnaaraartggytnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaarathaarggngcnggnggn gay (nucleotide sequence encoding intracellular Gaussia princeps Prolume luciferase with RCAD substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 703] gayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargtnytnaargaratggargcnaa ygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaaratgaaraarttyathccnggnmg ntgycayacntaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathccngarathccnggnttyaargay ytngarccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgyws ngayytnytnaaraartggytnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaarathaarggngcnggnggn gayaargaygarytn (nucleotide sequence encoding intracellular Gaussia princeps Prolume KDEL luciferase with RCAD substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 705] gayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargtnytnaargarathgargcnaa ygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaaratgaaraattyathccnggnmg ntgycayacntaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathccngarathccnggnttyaargay ytngarccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgyws ngayytnytnaaraartggytnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaarathaarggngcnggnggn gay (nucleotide sequence encoding intracellular Gaussia princeps Mutant 1 luciferase with RCAD substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 707] gayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargtnytnaargarytngargcnaa ygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaaratgaaraarttyathccnggnmg ntgycayacntaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathccngarathccnggnttyaargay ytngarccnytngarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgyws ngayytnytnaaraartggytnccncanngntgygcnacnttygcnwsnaarathcarggncargtngayaarathaarggngcnggnggn gay (nucleotide sequence encoding intracellular Gaussia princeps Mutant 2 luciferase with RCAD substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 709] gayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargtnytnaargaratggargcnaa ygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaaratgaaraarttyathccnggnmg ntgycayacntaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathccngarathccnggnttyaargay ytngarccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgyws ngayytnytnaaraartggytnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaarathaarggngcnggnggn gay (nucleotide sequence encoding intracellular Gaussia princeps GS luciferase with RCAD substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 711] gaygtngaygcnaaymgnggnggncayggnggncayccnggnaaraaratgccnaargargtnytngtngar atggargcnaaygcnaarmgngcnggntgycaymgnggntgyytnathtgyytnwsncayathaartgyacnaaraaratgaaraarttyat hccnggnmgntgycaywsntaygarggngayaargaywsngcncarggnggnathggngargarathgtngayatgccngarathccng gnttyaargayaargarccnatggaycarttyathgcncargtngaymgntgygcngaytgyacnacnggrrtgyytnaarggnytngcnaay gtnaartgywsngayytnytnaaraartggytnccnwsnmgntgyaaracnttygcnwsnaarathcarwsncargtngayacnathaargg nytngcnggngaymgn (nucleotide sequence encoding intracellular Metridia pacifica 2a luciferase with RCAD substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 713] gaygtngaygcnaaymgnggnggncayggnggncayccnggnaaraaratgccnaargargtnytngtngar atggargcnaaygcnaarmgngcnggntgycaymgnggntgyytnathtgyytnwsncayathaartgyacnaaraaratgaaraarttyat hccnggnmgntgycaywsntaygarggngayaargaywsngcncarggnggnathggngargarathgtngayatgccngarathccng gnttyaargayaargarccnatggaycarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaay gtnaartgywsngayytnytnaaraartggytnccnwsnmgntgyaaracnttygcnwsnaarathcarwsncargtngayacnathaargg nytngcnggngaymgn (nucleotide sequence encoding intracellular Metridia pacifica 2bv1 luciferase with RCAD substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 715] gaygtngaygcnaaymgnggnggncayggnggncayccnggnaaraaratgccnaargargtnccngtngar atggargcnaaygcnaarmgngcnggntgycaymgnggnttgyytnathtgyytnwsncayathaartgyacnaaraaratgaaraarttyat hccnggnmgntgycaywsntaygarggngayaargaywsngcncarggnggnathggngargarathgtngayatgccngarathccng gnttyaargayaargarccnatggaycarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaay gtnaartgywsngayytnytnaaraartggytnccnwsnmgntgyaaracnttygcnwsnaarathcarwsncargtngayacnathaargg nytngcnggngaymgn (nucleotide sequence encoding intracellular Metridia pacifica 2bv2 luciferase with RCAD substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 717] gaygtngaygcnaaymgnggnggncayggnggncayccnggnaaraaratgccnaargargtnytnatggara tggargcnaaygcnaarmgngcnggntgycaymgnggntgyytngtntgyytnwsncayathaartgyacngcncaratgcaraarttyat hccnggnmgntgycaywsntaygcnggngayaargaywsngcncarggnggnathgcnggnggngcnathgtngayathccngarath gcnggnttyaargaratgaarccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcn aaygtnaartgywsngayytnytnaaraartggytnccnwsnmgntgyaaracnttygcnwsnaarathcarwsncargtngayacnatha arggnytngcnggngaymgn (nucleotide sequence encoding intracellular Metridia longa 22 luciferase with RCAD substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 719] aaywsngaygcngaymgnggnaaratgccnggnaaraarytnccnytngargtnytnathgaratggargcnaa ygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmg ntgycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargar ytnggnccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgyw sngayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcarwsngargtngayaayathaarggnytngcngg ngaymgn (nucleotide sequence encoding intracellular Metridia pacifica 1v1 luciferase with RCAD substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 721] aaywsngaygcngaymgnggnaaratgccnggnaaraarytnccnytngargtnytnathgaratggargcnaa ygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmg ntgycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargar ytnggnccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgyw sngayytnytnaaraatggytnccngaymgntgygcnwsnttygcngayaarathcarwsngargtngayaayathaarggnytngcngg ngaymgn (nucleotide sequence encoding intracellular Metridia pacifica 1v2 luciferase with RCAD substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 723] aaywsngaygcngaymgnggnaaratgccnggnaaraarytnccnytngargtnytnathgaratggargcnaa ygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmg ntgycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargar ytnggnccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyynaarggnytngcnaaygtnaartgyw sngayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcarwsngargtngayaayathaarggnytngcngg ngaymgn (nucleotide sequence encoding intracellular Metridia pacifica 1v3 luciferase with RCAD substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 725] aayacngaywsnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnytnathgaratggargcna aygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaaraartayathccnggnmg ntgycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngayathwsnggnttyaargar atgggnccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgyw sngayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcarwsngargtncayaayathaarggnytngcngg ngaymgn (nucleotide sequence encoding intracellular Metridia longa 39 luciferase with RCAD substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 727] aayaaygaygtnaaymgnggnaaratgccnggnaaraarytnccnytngargtnytnathgaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaarcartayathccnggnmgnt gycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggarccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsn gayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargcncayaayathaarggnytngcnggng aymgn (nucleotide sequence encoding intracellular Metridia longa 7 luciferase with RCAD substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 729] garacngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgnt gycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggcnccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsn gayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggnga ymgn (nucleotide sequence encoding intracellular Metridia longa GS luciferase with RCAD substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 731] garacngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgmt gycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggcnccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsn gayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggnga ymgn (nucleotide sequence encoding intracellular Metridia longa 164M3 luciferase with RCAD substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 733] garacngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggrnmgnt gycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggcnccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsn gayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggnga ymgn (nucleotide sequence encoding intracellular Metridia longa 164v1 luciferase with RCAD substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 735] garacngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgnt gycaygaytayggnggngayaaraaracnggncargcnggnathgtnggrngcnathgtngayathccngarathwsnggnttyaargarat ggcnccnatggarcarttyathgcncargtngarmgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsn gayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggrnatggcnggnga ymgn (nucleotide sequence encoding intracellular Metridia longa 164v2 luciferase with RCAD substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 737] garacngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgmt gycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggcnccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsn gayytnytnaaraanggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggnga ymgn (nucleotide sequence encoding intracellular Metridia longa 16 luciferase with RCAD substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 739] garacngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgnt gycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggarccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsn gayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggnga ymgn (nucleotide sequence encoding intracellular Metridia longa 45 luciferase with RCAD substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 741] garacngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgnt gycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggarccnatggarcarttyathgcncargtngaymgntgygcngaytgyaayacnggntgyytnaarggnytngcnaaygtnaartgywsn gayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggnga ymgn (nucleotide sequence encoding intracellular Metridia longa 52 luciferase with RCAD substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 743] garacngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgnt gycaygaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggcnccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsn gayytnytnaaraartggytnccnggnmgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggnga ymgn (nucleotide sequence encoding intracellular Metridia longa AL luciferase with RCAD substitution at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 745] gayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargtnytnaargaratggargcnaa ygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaaratgaaraarttyathccnggnmg ntgygcngaytaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathccngarathccnggnttyaargay ytngarccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgyws ngayytnytnaaraartggytnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaarathaarggngcnggnggn gay (nucleotide sequence encoding intracellular Gaussia princeps Prolume luciferase with RCAD substitution at C₅ and at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 747] gayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargtnytnaargaratggargcnaa ygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaaratgaaraarttyathccnggnmg ntgygcngaytaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathccngarathccnggnttyaargay ytngarccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgyws ngayytnytnaaraartggytnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaarathaarggngcnggnggn gayaargaygarytn (nucleotide sequence encoding intracellular Gaussia princeps Prolume KDEL luciferase with RCAD substitution at C₅ and at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 749] gayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargtnytnaargarathgargcnaa ygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaaratgaaraarttyathccnggnmg ntgygcngaytaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathccngarathccnggnttyaargay ytngarccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgyws ngayytnytnaaraartggytnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaarathaarggngcnggnggn gay (nucleotide sequence encoding intracellular Gaussia princeps Mutant 1 luciferase with RCAD substitution at C₅ and at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 751] gayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargtnytnaargarytngargcnaa ygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaaratgaaraarttyathccnggnmg ntgygcngaytaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathccngarathccnggnttyaargay ytngarccnytngarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgyws ngayytnytnaaraartggytnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaarathaarggngcnggnggn gay (nucleotide sequence encoding intracellular Gaussia princeps Mutant 2 luciferase with RCAD substitution at C₅ and with KCSD substitution at C₉); [SEQ ID NO: 753] gayytngaygcngaymgnggnaarytnccnggnaaraarytnccnytngargtnytnaargaratggargcnaa ygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsncayathaartgyacnccnaaratgaaraarttyathccnggnmg ntgygcngaytaygarggngayaargarwsngcncarggnggnathggngargcnathgtngayathccngarathccnggnttyaargay ytngarccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgyws ngayytnytnaaraartggytnccncarmgntgygcnacnttygcnwsnaarathcarggncargtngayaarathaarggngcnggnggn gay (nucleotide sequence encoding intracellular Gaussia princeps GS luciferase with RCAD substitution at C₆ and at C₆ and with KCSD substitution at C₆ ); [SEQ ID NO: 755] gaygtngaygcnaaymgnggnggncayggnggncayccnggnaaraaratgccnaargargtnytngtngar atggargcnaaygcnaarmgngcnggntgycaymgnggntgyytnathtgyytnwsncayathaartgyacnaaraaratgaaraarttyat hccnggnmgntgygcngaytaygarggngayaargaywsngcncarggnggnathggngargarathgtngayatgccngarathccng gnttyaargayaargarccnatggaycarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaay gtnaartgywsngayytnytnaaraartggymccnwsnmgntgyaaracnttygcnwsnaarathcarwsncargtngayacnathaargg nytngcnggngaymgn (nucleotide sequence encoding intracellular Metridia pacifica 2a luciferase with RCAD substitution at C₅ and at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 757] gaygtngaygcnaaymgnggnggncayggnggncayccnggnaaraaratgccnaargargtnytngtngar atggargcnaaygcnaarmgngcnggntgycaymgnggntgyytnathtgyytnwsncayathaartgyacnaaraaratgaaraarttyat hccnggnmgntgygcngaytaygarggngayaargaywsngcncarggnggnathggngargarathgtngayatgccngarathccng gnttyaargayaargarccnatggaycarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaay gtnaartgywsngayytnytnaaraartggytnccnwsnmgntgyaaracnttygcnwsnaarathcarwsncargtngayacnathaargg nytngcnggngaymgn (nucleotide sequence encoding intracellular Metridia pacifica 2bv1 luciferase with RCAD substitution at C₅ and at C₆ and with KCSD substitution at C₆ ); [SEQ ID NO: 759] gaygtngaygcnaaymgnggnggncayggnggncayccnggnaaraaratgccnaargargtnccngtngar atggargcnaaygcnaarmgngcnggntgycaymgnggntgyytnathtgyytnwsncayathaartgyacnaaraaratgaaraarttyat nccnggnmgntgygcngaytaygarggngayaargaywsngcncarggnggnathggngargarathgtngayatgccngarathccng gnttyaargayaargarccnatggaycarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaay gtnaartgywsngayytnytnaaraartggytnccnwsnmgntgyaaracnttygcnwsnaarathcarwsncargtngayacnathaargg nytngcnggngaymgn (nucleotide sequence encoding intracellular Metridia pacifica 2bv2 luciferase with RCAD substitution at C₅ and at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 761] gaygtngaygcnaaymgnggnggncayggnggncayccnggnaaraaratgccnaargargtnytnatggara tggargcnaaygcnaarmgngcnggntgycaymgnggntgyytngtntgyytnwsncayathaartgyacngcncaratgcaraarttyat hccnggnmgntgygcngaytaygcnggngayaargaywsngcncarggnggnathgcnggnggngcnathgtngayathccngarath gcnggnttyaargaratgaarccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyynaarggnytngcn aaygtnaartgywsngayytnytnaaraartggytnccnwsnmgntgyaaracnttygcnwsnaarathcarwsncargtngayacnatha arggnytngcnggngaymgn (nucleotide sequence encoding intracellular Metridia longa 22 luciferase with RCAD substitution at C₅ and at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 763] aaywsngaygcngaymgnggnaaratgccnggnaaraarytnccnytngargtnytnathgaratggargcnaa ygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmg ntgygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgngayathccngarathwsnggnttyaargar ytnggnccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgyw sngayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcarwsngargtngayaayathaarggnytngcngg ngaymgn (nucleotide sequence encoding intracellular Metridia pacifica 1v1 luciferase with RCAD substitution at C₅ and at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 765] aaywsngaygcngaymgnggnaaratgccnggnaaraarytnccnytngargtnytnathgaratggargcnaa ygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmg ntgygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargar ytnggnccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgyw sngayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcarwsngargtngayaayathaarggnytngcngg ngaymgn (nucleotide sequence encoding intracellular Metridia pacifica 1v2 luciferase with RCAD substitution at C₅ and at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 767] aaywsngaygcngaymgnggnaaratgccnggnaaraarytnccnytngargtnytnathgaratggargcnaa ygcnmgnaargcnggntgyacnmgnggntgyytnathtgyytn wsnaarathaartgyacngcnaaratgaargtntayathccnggnmg ntgygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargar ytnggnccnatggarcarttyathgcncargtngaymgmtgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgyw sngayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcarwsngargtngayaayathaarggnytngcngg ngaymgn (nucleotide sequence encoding intracellular Metridia pacifica 1v3 luciferase with RCAD substitution at C₅ and at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 769] aayacngaywsnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnytnathgaratggargcna aygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaaraartayathccnggnmg ntgygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngayathwsnggnttyaargar atgggnccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgyw sngayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcarwsngargtncayaayathaarggnytngcngg ngaymgn (nucleotide sequence encoding intracellular Metridia longa 39 luciferase with RCAD substitution at C₅ and at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 771] aayaaygaygtnaaymgnggnaaratgccnggnaaraarytnccnytngargtnytnathgaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaarcartayathccnggnmgnt gygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtn gayathccngarathwsnggnttyaargarat ggarccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsn gayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargcncayaayathaarggnytngcnggng aymgn (nucleotide sequence encoding intracellular Metridia longa 7 luciferase with RCAD substitution at C₅ and at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 773] garacngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgnt gygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggcnccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsn gayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggnga ymgn (nucleotide sequence encoding intracellular Metridia longa GS luciferase with RCAD substitution at C₅and at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 775] garacngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyymwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgnt gygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggcnccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsn gayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggnga ymgn (nucleotide sequence encoding intracellular Metridia longa 164M3 luciferase with RCAD substitution at C₅ and at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 777] garacngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgnt gygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggcnccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsn gayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggnga ymgn (nucleotide sequence encoding intracellular Metridia longa 164v1 luciferase with RCAD substitution at C₅ and at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 779] garacngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgnt gygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggcnccnatggarcarttyathgcncargtngarmgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsn gayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggnga ymgn (nucleotide sequence encoding intracellular Metridia longa 164v2 luciferase with RCAD substitution at C₅ and at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 781] garacngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyynwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgnt gygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggcnccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsn gayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggnga ymgn (nucleotide sequence encoding intracellular Metridia longa 16 luciferase with RCAD substitution at C₅ and at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 783] garacngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgnt gygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggarccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsn gayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggnga ymgn (nucleotide sequence encoding intracellular Metridia longa 45 luciferase with RCAD substitution at C₅ and at C₆ and with KCSD substitution at C₉); [SEQ ID NO: 785] garacngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgnt gygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggarccnatggarcarttyathgcncargtngaymgntgygcngaytgyaayacnggntgyytnaarggnytngcnaaygtnaartgywsn gayytnytnaaraartggytnccngaymgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggnga ymgn (nucleotide sequence encoding intracellular Metridia longa 52 luciferase with RCAD substitution at C₅ and at C₆ and with KCSD substitution at C₉); or [SEQ ID NO: 787] garacngaygcnaaymgnggnaaratgccnggnaaraarytnccnytngcngtnathatggaratggargcnaa ygcnttyaargcnggntgyacnmgnggntgyytnathtgyytnwsnaarathaartgyacngcnaaratgaargtntayathccnggnmgnt gygcngaytayggnggngayaaraaracnggncargcnggnathgtnggngcnathgtngayathccngarathwsnggnttyaargarat ggcnccnatggarcarttyathgcncargtngaymgntgygcngaytgyacnacnggntgyytnaarggnytngcnaaygtnaartgywsn gayytnytnaaraartggytnccnggnmgntgygcnwsnttygcngayaarathcaraargargtncayaayathaarggnatggcnggnga ymgn (nucleotide sequence encoding intracellular Metridia longa AL luciferase with RCAD substitution at C₅ and at C₆ and with KCSD substitution at C₉), or a complement thereof;

(d) an amino acid sequence which is encoded by a nucleotide sequence that shares at least 70% (and at least 71% to at least 99% and all integer percentages in between) sequence identity with the sequence set forth in any one of SEQ ID NO: 481, 483, 485, 487, 489, 491, 493, 495, 497, 499, 501, 503, 505, 507, 509, 511, 513, 515, 517, 519, 521, 523, 525, 527, 529, 531, 533, 535, 537, 539, 541, 543, 545, 547, 549, 551, 553 555, 557, 559, 561, 563, 565, 567, 569, 571, 573, 575, 577, 579, 581, 583, 585, 587, 589, 591, 593, 595, 597, 599, 601, 603, 605, 607, 609, 611, 613, 615, 617, 619, 621, 623, 625, 627, 629, 631, 633, 635, 637, 639, 641, 643, 645, 647, 649, 651, 653, 655, 657, 659, 661, 663, 665, 667, 669, 671, 673, 675, 677, 679, 681, 683, 685, 687, 689, 691, 693, 695, 697, 699, 701, 703, 705, 707, 709, 711, 713, 715, 717, 719, 721, 723, 725, 727, 729, 731, 733, 735, 737, 739, 741, 743, 745, 747, 749, 751, 753, 755, 757, 759, 761, 763, 765, 767, 769, 781, 783, 785 or 787, or a complement thereof, wherein the amino acid sequence comprises at least one subsequence corresponding to B₁C₅X₁₈X₁₉, X₃₇C₆X₃₈X₃₉ or X₄₁C₉ΣX₄₂ of formula X, wherein an individual subsequence consists of an amino acid sequence represented by formula XI as defined above; or

(e) an amino acid sequence which is encoded by a nucleotide sequence that hybridizes under at least medium or high stringency conditions to the sequence set forth in any one of SEQ ID NO: 481, 483, 485, 487, 489, 491, 493, 495, 497, 499, 501, 503, 505, 507, 509, 511, 513, 515, 517, 519, 521, 523, 525, 527, 529, 531, 533, 535, 537, 539, 541, 543, 545, 547, 549, 551, 553 555, 557, 559, 561, 563, 565, 567, 569, 571, 573, 575, 577, 579, 581, 583, 585, 587, 589, 591, 593, 595, 597, 599, 601, 603, 605, 607, 609, 611, 613, 615, 617, 619, 621, 623, 625, 627, 629, 631, 633, 635, 637, 639, 641, 643, 645, 647, 649, 651, 653, 655, 657, 659, 661, 663, 665, 667, 669, 671, 673, 675, 677, 679, 681, 683, 685, 687, 689, 691, 693, 695, 697, 699, 701, 703, 705, 707, 709, 711, 713, 715, 717, 719, 721, 723, 725, 727, 729, 731, 733, 735, 737, 739, 741, 743, 745, 747, 749, 751, 753, 755, 757, 759, 761, 763, 765, 767, 769, 781, 783, 785 or 787, or a complement thereof, wherein the amino acid sequence comprises at least one subsequence corresponding to B₁C₅X₁₈X₁₉, X₃₇C₆X₃₈X₃₉ or X₄₁C₉ΣX₄₂ of formula X, wherein an individual subsequence consists of an amino acid sequence represented by formula XI as defined above.

In some embodiments, X₁ in formula X is L or modified form thereof.

In some embodiments, X₄₃ is other than D or P and is suitably selected from R or K or modified form thereof, more suitably H or modified form thereof, even more suitably T, A, S or N or modified form thereof, preferably Q or modified form thereof, more preferably G or modified form thereof, even more preferably E or modified form thereof.

In some embodiments, the polypeptides comprising an amino acid sequence according to formula X may optionally comprise any one or more of a signal sequence for secreting the polypeptide to an extracellular location and a secretion-enhancing sequence.

In some embodiments, polypeptides comprising an amino acid sequence according to formula X have any one or more activities selected from the group consisting of enhanced luminescence, stronger flash signal intensity, enhanced glow signal intensity, enhanced stability of glow signal and enhanced effective temperature range, including elevated optimal temperature range, for operation of the enzyme as compared to a reference luciferase polypeptide that has 1, 2 or three fewer amino acid sequences represented by formula XI.

In a related aspect, the present invention provides isolated, synthetic, recombinant or purified nucleic acid molecules that comprise, consist or consist essentially of a nucleotide sequence encoding the amino acid sequence of a polypeptide according to formula VIII as broadly described above. In some embodiments, the nucleic acid molecules comprise, consist or consist essentially of a nucleotide sequence selected from the group consisting of:

(a) a nucleotide sequence that encodes an amino acid sequence selected from any one of: 174, 176, 178, 180, 182, 184, 186, 188, 190, 192, 194, 196, 198, 200, 202, 204, 206, 208, 210, 212, 214, 216, 218, 220, 222, 224, 226, 228, 230, 232, 234, 236, 238, 240, 242, 244, 246, 248, 250, 252, 254, 256, 258, 260, 262, 264, 266, 268, 270, 272, 274, 276, 278, 280, 282, 284, 286, 288, 290, 292, 294, 296, 298, 300, 302, 304, 306, 308, 310 312, 314, 316, 318, 320 322, 324, 326, 328, 330, 332, 334, 336, 338, 340, 34, 344, 346, 348, 350, 352, 354, 356, 358, 360, 362, 364, 366, 368, 370, 372, 374, 376, 378, 380, 382, 384, 386, 388, 390, 392, 394, 396, 398, 400, 402, 404, 406, 408, 410, 412, 414, 416, 418, 420, 422, 424, 426, 428, 430, 432, 434, 436, 438, 440, 442, 444, 446, 448, 450, 452, 454, 456, 458, 460, 462, 464, 466, 468, 470, 472, 474, 476, 478, 480, 482, 484, 486, 488, 490, 492, 494, 496, 498, 500, 502, 504, 506, 508, 510, 512, 514, 516, 518, 520, 522, 524, 526, 528, 530, 532, 534, 536, 538, 540, 542, 544, 546, 548, 550, 552, 554, 556, 558, 560, 562, 564, 566, 568, 570, 572, 574, 576, 578, 580, 582, 584, 586, 588, 590, 592, 594, 596, 598, 600, 602, 604, 606, 608, 610, 612, 614, 616, 618, 620, 622, 624, 626, 628, 630, 632, 634, 636, 638, 640, 642, 644, 646, 648, 650, 652, 654, 656, 658, 660, 662, 664, 666, 668, 670, 672, 674, 676, 678, 680, 682, 684, 686, 688, 690, 692, 694, 696, 698, 700, 702, 704, 706, 708, 710, 712, 714, 716, 718, 720, 722, 724, 726, 728, 730, 732, 734, 736, 738, 740, 742, 744, 746, 748, 750, 752, 754, 756, 758, 760, 762, 764, 766, 768, 780, 782, 784, 786 or 788;

(b) a nucleotide sequence selected from any one of SEQ ID NO: 173, 175, 177, 179, 181, 183, 185, 187, 189, 191, 193, 195, 197, 199, 201, 203, 205, 207, 209, 211, 213, 215, 217, 219, 221, 223, 225, 227, 229, 231, 233, 235, 237, 239, 241, 243, 245, 247, 249, 251, 253 255, 257, 259, 261, 263, 265, 267, 269, 271, 273, 275, 277, 279, 281, 283, 285, 287, 289, 291, 293, 295, 297, 299, 301, 303, 305, 307, 309, 311, 313, 315, 317, 319, 321, 323, 325, 327, 329, 331, 333, 335, 337, 339, 341, 343, 345, 347, 349, 351, 353, 355, 357, 359, 361, 363, 365, 367, 369, 371, 373, 375, 377, 379, 381, 383, 385, 387, 389, 391, 393, 395, 397, 399, 401, 403, 405, 407, 409, 411, 413, 415, 417, 419, 421, 423, 425, 427, 429, 431, 433, 435, 437, 439, 441, 443, 445, 447, 449, 451, 453, 455, 457, 459, 461, 463, 465, 467, 469, 471, 473, 475, 477, 479, 481, 483, 485, 487, 489, 491, 493, 495, 497, 499, 501, 503, 505, 507, 509, 511, 513, 515, 517, 519, 521, 523, 525, 527, 529, 531, 533, 535, 537, 539, 541, 543, 545, 547, 549, 551, 553 555, 557, 559, 561, 563, 565, 567, 569, 571, 573, 575, 577, 579, 581, 583, 585, 587, 589, 591, 593, 595, 597, 599, 601, 603, 605, 607, 609, 611, 613, 615, 617, 619, 621, 623, 625, 627, 629, 631, 633, 635, 637, 639, 641, 643, 645, 647, 649, 651, 653, 655, 657, 659, 661, 663, 665, 667, 669, 671, 673, 675, 677, 679, 681, 683, 685, 687, 689, 691, 693, 695, 697, 699, 701, 703, 705, 707, 709, 711, 713, 715, 717, 719, 721, 723, 725, 727, 729, 731, 733, 735, 737, 739, 741, 743, 745, 747, 749, 751, 753, 755, 757, 759, 761, 763, 765, 767, 769, 781, 783, 785 or 787;

(c) a nucleotide sequence that shares at least 70% (and at least 71% to at least 99% and all integer percentages in between) sequence identity with the sequence set forth in any one of SEQ ID NO: 173, 175, 177, 179, 181, 183, 185, 187, 189, 191, 193, 195, 197, 199, 201, 203, 205, 207, 209, 211, 213, 215, 217, 219, 221, 223, 225, 227, 229, 231, 233, 235, 237, 239, 241, 243, 245, 247, 249, 251, 253 255, 257, 259, 261, 263, 265, 267, 269, 271, 273, 275, 277, 279, 281, 283, 285, 287, 289, 291, 293, 295, 297, 299, 301, 303, 305, 307, 309, 311, 313, 315, 317, 319, 321, 323, 325, 327, 329, 331, 333, 335, 337, 339, 341, 343, 345, 347, 349, 351, 353, 355, 357, 359, 361, 363, 365, 367, 369, 371, 373, 375, 377, 379, 381, 383, 385, 387, 389, 391, 393, 395, 397, 399, 401, 403, 405, 407, 409, 411, 413, 415, 417, 419, 421, 423, 425, 427, 429, 431, 433, 435, 437, 439, 441, 443, 445, 447, 449, 451, 453, 455, 457, 459, 461, 463, 465, 467, 469, 471, 473, 475, 477, 479, 481, 483, 485, 487, 489, 491, 493, 495, 497, 499, 501, 503, 505, 507, 509, 511, 513, 515, 517, 519, 521, 523, 525, 527, 529, 531, 533, 535, 537, 539, 541, 543, 545, 547, 549, 551, 553 555, 557, 559, 561, 563, 565, 567, 569, 571, 573, 575, 577, 579, 581, 583, 585, 587, 589, 591, 593, 595, 597, 599, 601, 603, 605, 607, 609, 611, 613, 615, 617, 619, 621, 623, 625, 627, 629, 631, 633, 635, 637, 639, 641, 643, 645, 647, 649, 651, 653, 655, 657, 659, 661, 663, 665, 667, 669, 671, 673, 675, 677, 679, 681, 683, 685, 687, 689, 691, 693, 695, 697, 699, 701, 703, 705, 707, 709, 711, 713, 715, 717, 719, 721, 723, 725, 727, 729, 731, 733, 735, 737, 739, 741, 743, 745, 747, 749, 751, 753, 755, 757, 759, 761, 763, 765, 767, 769, 781, 783, 785 or 787, or a complement thereof, wherein the amino acid sequence encoded by the nucleotide sequence comprises at least one subsequence corresponding to B₁C₅X₁₈X₁₉, X₃₇C₆X₃₈X₃₉ or X₄₁C₉ΣX₄₂ of formula X, wherein an individual subsequence consists of an amino acid sequence represented by formula XI as defined above; or

(c) a nucleotide sequence that hybridizes under at least low, medium or high stringency conditions to the sequence set forth in any one of SEQ ID NO: 11, 13, 15, 17, 19, 21, 23, 25, 27, 29, 31, 33, 35, 37, 39, 41, 43, 45, 47, 49, 51, 53, 55, 57, 59, 61, 63, 65, 67, 69, 71, 73, 75, 77, 79 or 81, or a complement thereof, wherein the amino acid sequence encoded by the nucleotide sequence comprises at least one subsequence corresponding to B₁C₅X₁₈X₁₉, X₃₇C₆X₃₈X₃₉ or X₄₁C₉ΣX₄₂ of formula X, wherein an individual subsequence consists of an amino acid sequence represented by formula XI as defined above.

In some embodiments, the polypeptide encoded by the nucleic acid molecule as broadly described above has any one or more activities selected from the group consisting of enhanced luminescence, stronger flash signal intensity, enhanced glow signal intensity, enhanced stability of glow signal and enhanced effective temperature range, including elevated optimal temperature range, for operation of the enzyme as compared to a reference luciferase polypeptide that has 1, 2 or three fewer amino acid sequences represented by formula XI.

In some embodiments, the nucleic acid molecules further comprise a nucleotide sequence encoding a signal peptide, representative examples of which are selected from:

(a) a nucleotide sequence that encodes an amino acid sequence selected from SEQ ID NO: 84, 86, 88, 90, 92, 94, 96, 98, 100, 102 or 104;

(b) a nucleotide sequence as set forth in any one of SEQ ID NO: 83, 85, 87, 89, 91, 93, 95, 97, 99, 101 or 103, or a complement thereof;

(c) a nucleotide sequence that shares at least 70% (and at least 71% to at least 99% and all integer percentages in between) sequence identity with the sequence set forth in any one of SEQ ID NO: 83, 85, 87, 89, 91, 93, 95, 97, 99, 101 or 103, or a complement thereof; or

(d) a nucleotide sequence that hybridizes under at least low, medium or high stringency conditions to the sequence set forth in any one of SEQ ID NO: 83, 85, 87, 89, 91, 93, 95, 97, 99, 101 or 103, or a complement thereof.

In some embodiments, the nucleic acid molecules further comprise a nucleotide sequence encoding a secretion-enhancing sequence, representative examples of which are selected from:

(a) a nucleotide sequence that encodes an amino acid sequence as set forth in any one of SEQ ID NO: 106, 107, 108, 110, 112, 114, 116, 118, 120, 122, 124, 126, 128, 130 or 132; or;

(b) a nucleotide sequence as set forth in any one of SEQ ID NO: 105, 107, 109, 111, 113, 115, 117, 119, 121, 123, 125, 127, 129 or 131, or a complement thereof;

(b) a nucleotide sequence that shares at least 70% (and at least 71% to at least 99% and all integer percentages in between) sequence identity with the sequence set forth in any one of SEQ ID NO: 105, 107, 109, 111, 113, 115, 117, 119, 121, 123, 125, 127, 129 or 131, or a complement thereof; or

(c) a nucleotide sequence that hybridizes under at least low, medium or high stringency conditions to the sequence set forth in any one of SEQ ID NO: 105, 107, 109, 111, 113, 115, 117, 119, 121, 123, 125, 127, 129 or 131, or a complement thereof.

In another aspect, the present invention provides polypeptides, which are suitably in isolated, synthetic, recombinant or purified form, which comprise, consist or consist essentially of an amino acid sequence having luciferase activity, wherein the amino acid sequence corresponds to a copepod luciferase amino acid sequence comprising or consisting essentially of the following optimal temperature range-elevating amino acids:

L, or modified form thereof, at at least one position corresponding to positions 85 or 98 (relative to the consensus numbering shown in FIG. 1); and,

a basic amino acid residue immediately upstream of at least one conserved cysteine selected from C₅, C₆, C₉ and C₁₀ to yield a BC motif.

In some embodiments, the polypeptides comprise (1) L, or modified form thereof, at position 85 (relative to the consensus numbering shown in FIG. 1). In some embodiments, the polypeptides comprise (2) L, or modified form thereof, at position 98 (relative to the consensus numbering shown in FIG. 1). Suitably, the polypeptides comprise (3) L, or modified form thereof, at position 85 and 98 (relative to the consensus numbering shown in FIG. 1).

In some embodiments, the polypeptides comprise (4) a BC motif at at least one position corresponding to conserved cysteines C₆ and C₉. In representative examples of this type, the polypeptides comprise (5) a BC motif at a position corresponding to conserved cysteine C₆. In other representative examples, the polypeptides comprise (6) a BC motif at a position corresponding to conserved cysteine C₉. In still other representative examples, the polypeptides comprise (7) a BC motif at positions corresponding to each of conserved cysteines C₆ and C₉.

In some embodiments, the polypeptides comprise (8) a BCΩ motif at at least one position corresponding to conserved cysteines C₅, C₆ and C₉. In representative examples of this type, the polypeptides comprise (9) a BCΩ motif at a position corresponding to conserved cysteine C₅. In other representative examples, the polypeptides comprise (10) a BCΩ motif at a position corresponding to conserved cysteine C₆. In still other representative examples, the polypeptides comprise (11) a BCΩ motif at a position corresponding to conserved cysteine C₉. In still other representative examples, the polypeptides comprise (12) a BCΩ motif at positions corresponding to each of conserved cysteines C₅ and C₆. In still other representative examples, the polypeptides comprise (13) a BCΩ motif at positions corresponding to each of conserved cysteines C₅ and C₉. In still other representative examples, the polypeptides comprise (14) a BCΩ motif at positions corresponding to each of conserved cysteines C₆ and C₉. In still other representative examples, the polypeptides comprise (15) a BCΩ motif at positions corresponding to each of conserved cysteines C₅, C₆ and C₉.

In some embodiments, the polypeptides comprise (16) a BCΩΩ motif at at least one position corresponding to conserved cysteines C₅, C₆ and C₉. In representative examples of this type, the polypeptides comprise (17) a BCΩΩ motif at a position corresponding to conserved cysteine C₅. In other representative examples, the polypeptides comprise (18) a BCΩΩ motif at a position corresponding to conserved cysteine C₆. In still other representative examples, the polypeptides comprise (19) a BCΩΩ motif at a position corresponding to conserved cysteine C₉. In still other representative examples, the polypeptides comprise (20) a BCΩΩ motif at positions corresponding to each of conserved cysteines C₅ and C₆. In still other representative examples, the polypeptides comprise (21) a BCΩΩ motif at positions corresponding to each of conserved cysteines C₅ and C₉. In still other representative examples, the polypeptides comprise (22) a BCΩΩ motif at positions corresponding to each of conserved cysteines C₆ and C₉. In other representative examples, the polypeptides comprise (23) a BCΩΩ motif at positions corresponding to each of conserved cysteines C₅, C₆ and C₉.

In some embodiments, the polypeptides comprise (24) a BCΩD motif at at least one position corresponding to conserved cysteines C₅, C₆, C₉ and C₁₀. In representative examples of this type, the polypeptides comprise (25) a BCΩD motif at a position corresponding to conserved cysteine C₅. In other representative examples, the polypeptides comprise (26) a BCΩD motif at a position corresponding to conserved cysteine C₆. In still other representative examples, the polypeptides comprise (27) a BCΩD motif at a position corresponding to conserved cysteine C₉. In other representative examples, the polypeptides comprise (28) a BCΩD motif at a position corresponding to conserved cysteine C₁₀. In still other representative examples, the polypeptides comprise (29) a BCΩD motif at positions corresponding to each of conserved cysteines C₅ and C₆. In still other representative examples, the polypeptides comprise (30) a BCΩD motif at positions corresponding to each of conserved cysteines C₅ and C₉. In other representative examples, the polypeptides comprise (31) a BCΩD motif at positions corresponding to each of conserved cysteines C₅ and C₁₀. In still other representative examples, the polypeptides comprise (32) a BCΩD motif at positions corresponding to each of conserved cysteines C₆ and C₉. In still other representative examples, the polypeptides comprise (33) a BCΩD motif at positions corresponding to each of conserved cysteines C₆ and C₁₀. In still other representative examples, the polypeptides comprise (34) a BCΩD motif at positions corresponding to each of conserved cysteines C₉ and C₁₀. In other representative examples, the polypeptides comprise (35) a BCΩD motif at positions corresponding to each of conserved cysteines C₅, C₆ and C₉. In still other representative examples, the polypeptides comprise (36) a BCΩD motif at positions corresponding to each of conserved cysteines C₅, C₆ and C₁₀. In still other representative examples, the polypeptides comprise (37) a BCΩD motif at positions corresponding to each of conserved cysteines C₅, C₉ and C₁₀. In other representative examples, the polypeptides comprise (38) a BCΩD motif at positions corresponding to each of conserved cysteines C₆, C₉ and C₁₀. In still other representative examples, the polypeptides comprise (39) a BCΩD motif at positions corresponding to each of conserved cysteines C₅, C₆, C₉ and C₁₀.

In some embodiments, the polypeptides comprise (40) an EBC motif at at least one position corresponding to conserved cysteines C₅, C₆, C₉ and C₁₀. In representative examples of this type, the polypeptides comprise (41) an EBC motif at a position corresponding to conserved cysteine C₅. In other representative examples, the polypeptides comprise (42) an EBC motif at a position corresponding to conserved cysteine C₆. In still other representative examples, the polypeptides comprise (43) an EBC motif at a position corresponding to conserved cysteine C₉. In other representative examples, the polypeptides comprise (44) an EBC motif at a position corresponding to conserved cysteine C₁₀. In still other representative examples, the polypeptides comprise (45) an EBC motif at positions corresponding to each of conserved cysteines C₅ and C₆. In still other representative examples, the polypeptides comprise (46) an EBC motif at positions corresponding to each of conserved cysteines C₅ and C₉. In other representative examples, the polypeptides comprise (47) an EBC motif at positions corresponding to each of conserved cysteines C₅ and C₁₀. In still other representative examples, the polypeptides comprise (48) an EBC motif at positions corresponding to each of conserved cysteines C₆ and C₉. In still other representative examples, the polypeptides comprise (49) an EBC motif at positions corresponding to each of conserved cysteines C₆ and C₁₀. In still other representative examples, the polypeptides comprise (50) an EBC motif at positions corresponding to each of conserved cysteines C₉ and C₁₀. In other representative examples, the polypeptides comprise (51) an EBC motif at positions corresponding to each of conserved cysteines C₅, C₆ and C₉. In still other representative examples, the polypeptides comprise (52) an EBC motif at positions corresponding to each of conserved cysteines C₅, C₆ and C₁₀. In still other representative examples, the polypeptides comprise (53) an EBC motif at positions corresponding to each of conserved cysteines C₅, C₉ and C₁₀. In other representative examples, the polypeptides comprise (54) an EBC motif at positions corresponding to each of conserved cysteines C₆, C₉ and C₁₀. In still other representative examples, the polypeptides comprise (55) an EBC motif at positions corresponding to each of conserved cysteines C₅, C₆, C₉ and C₁₀.

In some embodiments, the polypeptides comprise (56) a GBC motif at at least one position corresponding to conserved cysteines C₆, C₉ and C₁₀. In representative examples of this type, the polypeptides comprise (57) a GBC motif at a position corresponding to conserved cysteine C₆. In other representative examples, the polypeptides comprise (58) a GBC motif at a position corresponding to conserved cysteine C₉. In still other representative examples, the polypeptides comprise (59) a GBC motif at a position corresponding to conserved cysteine C₁₀. In still other representative examples, the polypeptides comprise (60) a GBC motif at positions corresponding to each of conserved cysteines C₆ and C₉. In still other representative examples, the polypeptides comprise (61) a GBC motif at positions corresponding to each of conserved cysteines C₆ and C₁₀. In still other representative examples, the polypeptides comprise (62) a GBC motif at positions corresponding to each of conserved cysteines C₉ and C₁₀. In still other representative examples, the polypeptides comprise (63) a GBC motif at positions corresponding to each of conserved cysteines C₆, C₉ and C₁₀.

In some embodiments, the polypeptides comprise (64) a BCA motif at at least one position corresponding to conserved cysteines C₅, C₆ and C₉. In representative examples of this type, the polypeptides comprise (65) a BCA motif at a position corresponding to conserved cysteine C₅. In other representative examples, the polypeptides comprise (66) a BCA motif at a position corresponding to conserved cysteine C₆. In still other representative examples, the polypeptides comprise (67) a BCA motif at a position corresponding to conserved cysteine C₉. In still other representative examples, the polypeptides comprise (68) a BCA motif at positions corresponding to each of conserved cysteines C₅ and C₆. In still other representative examples, the polypeptides comprise (69) a BCA motif at positions corresponding to each of conserved cysteines C₅ and C₉. In still other representative examples, the polypeptides comprise (70) a BCA motif at positions corresponding to each of conserved cysteines C₆ and C₉. In still other representative examples, the polypeptides comprise (71) a BCA motif at positions corresponding to each of conserved cysteines C₅, C₆ and C₉.

In some embodiments, the polypeptides comprise (72) a BCAΩ motif at at least one position corresponding to conserved cysteines C₅, C₆ and C₉. In representative examples of this type, the polypeptides comprise (73) a BCAΩ motif at a position corresponding to conserved cysteine C₅. In other representative examples, the polypeptides comprise (74) a BCAΩ motif at a position corresponding to conserved cysteine C₆. In still other representative examples, the polypeptides comprise (75) a BCAΩ motif at a position corresponding to conserved cysteine C₉. In still other representative examples, the polypeptides comprise (76) a BCAΩ motif at positions corresponding to each of conserved cysteines C₅ and C₆. In still other representative examples, the polypeptides comprise (77) a BCAΩ motif at positions corresponding to each of conserved cysteines C₅ and C₉. In still other representative examples, the polypeptides comprise (78) a BCAΩ motif at positions corresponding to each of conserved cysteines C₆ and C₉. In still other representative examples, the polypeptides comprise (79) a BCAΩ motif at positions corresponding to each of conserved cysteines C₅, C₆ and C₉.

In some embodiments, the polypeptides comprise (80) a XBC motif at a position corresponding to conserved cysteine C₁₀ wherein X is other than D or P, and is selected, for example, from R or K or modified form thereof, more suitably H or modified form thereof, even more suitably T, A, S or N or modified form thereof, preferably Q or modified form thereof, more preferably G or modified form thereof, even more preferably E or modified form thereof.

Suitably, the polypeptides comprise at least one amino acid as defined in (1) to (3) and a motif as defined in any one of (4) to (7). In other embodiments, the polypeptides comprise at least one amino acid as defined in (1) to (3) and a motif as defined in any one of (8) to (15). In still other embodiments, the polypeptides comprise at least one amino acid as defined in (1) to (3) and a motif as defined in any one of (16) to (23). In still other embodiments, the polypeptides comprise at least one amino acid as defined in (1) to (3) and a motif as defined in any one of (24) to (39). In still other embodiments, the polypeptides comprise at least one amino acid as defined in (1) to (3) and a motif as defined in any one of (40) to (55). In still other embodiments, the polypeptides comprise at least one amino acid as defined in (1) to (3) and a motif as defined in any one of (56) to (63). In other embodiments, the polypeptides comprise at least one amino acid as defined in (1) to (3) and a motif as defined in any one of (64) to (71). In still other embodiments, the polypeptides comprise at least one amino acid as defined in (1) to (3) and a motif as defined in any one of (72) to (79). In still other embodiments, the polypeptides comprise at least one amino acid as defined in (1) to (3) and a motif as defined in (80).

In some embodiments, the polypeptides further comprise a deletion in whole or in part of a reference copepod luciferase amino acid sequence, wherein the amino acid sequence spans downstream of the signal peptide sequence and upstream of the amino acid residue at position 85 (relative to the consensus numbering shown in FIG. 1), suitably upstream of about residue 84, 83, 82, 81, 80, 79, 78, 77, 76, 75, 74, 73, 72, 71 (relative to the consensus numbering shown in FIG. 1).

In some embodiments, the copepod amino acid sequence comprises, consists or consists essentially of the amino acid sequence as defined in formula I or a sequence that shares at least 70% (and at least 71% to at least 99% and all integer percentages in between) sequence similarity or sequence identity with the amino acid sequence represented by formula I.

Still another aspect of the present invention provides methods for preparing a luciferase polypeptide with improved light-emitting characteristics (e.g., improved luminescence, improved flash signal intensity, improved glow signal intensity, improved glow signal stability and improved effective temperature range, including elevated optimal temperature range, of luciferase function). These methods generally comprise preparing an amino acid sequence that is distinguished from a reference luciferase polypeptide sequence, suitably a copepod luciferase polypeptide sequence, by at least one modification selected from the group consisting of:

i) substitution of an amino acid residue at position 85 (relative to the consensus numbering shown in FIG. 1) with L or modified form thereof;

ii) deletion in whole or in part of an amino acid sequence of the reference luciferase polypeptide, wherein the amino acid sequence spans downstream of the signal peptide sequence and upstream of the amino acid residue at position 85 (relative to the consensus numbering shown in FIG. 1), suitably upstream of about residue 84, 83, 82, 81, 80, 79, 78, 77, 76, 75, 74, 73, 72, 71 (relative to the consensus numbering shown in FIG. 1);

iii) substitution of one or more amino acid residues adjacent to at least one conserved cysteine of the reference luciferase polypeptide to produce an amino acid subsequence represented by formula XI: BCΩD  (XI)

wherein:

B is selected from basic amino acid residues (e.g., R or K, or modified form thereof);

C is a conserved cysteine, or modified form thereof, selected from C₅, C₆ and C₉;

Ω is selected from small amino acid residues (e.g., A, S or T, or modified form thereof) or acidic amino acid residues (e.g., E, or modified form thereof); and

D is aspartate or modified form thereof;

iv) substitution of one or more amino acid residues adjacent to conserved cysteine C₁₀ of the reference luciferase polypeptide to produce an amino acid subsequence as represented by the sequence XRCAS, wherein X is suitably other than D or P and is suitably selected from R or K or modified form thereof, more suitably H or modified form thereof, even more suitably T, A, S or N or modified form thereof, preferably Q or modified form thereof, more preferably G or modified form thereof, even more preferably E or modified form thereof;

v) substitution of one or more amino acid residues adjacent to at least one conserved cysteine selected from C₅, C₆, C₉ and C₁₀ of the reference luciferase polypeptide, wherein the substitution at an individual conserved cysteine produces an amino acid sequence represented by formula XX: BC  (XX) wherein:

B is selected from basic amino acid residues (e.g., R or K, or modified form thereof); and

C is a conserved cysteine, or modified form thereof, selected from C₅, C₆, C₉ and C₁₀, or in specific embodiments selected from C₆ and C₉,

wherein the substitution at an individual conserved cysteine, in specific embodiments, produces an amino acid sequence represented by formula XXI: BCΩ  (XXI) wherein:

B is selected from basic amino acid residues (e.g., R or K, or modified form thereof);

C is a conserved cysteine, or modified form thereof, selected from C₅, C₆, C₉ and C₁₀; and

Ω is selected from small amino acid residues (e.g., A, S or T, or modified form thereof) or acidic amino acid residues (e.g., E, or modified form thereof),

wherein the amino acid sequence represented by formula XXI is suitably selected from BCA or BCE,

wherein the substitution at an individual conserved cysteine, in specific embodiments, produces an amino acid sequence represented by formula V: BCΩΩ  (V)

wherein:

B is selected from basic amino acid residues (e.g., R or K, or modified form thereof);

C is a conserved cysteine, or modified form thereof, selected from C₅, C₆ C₉ and C₁₀; and

Ω is selected from small amino acid residues (e.g., A, S or T, or modified form thereof) or acidic amino acid residues (e.g., E, or modified form thereof),

wherein the amino acid sequence represented by formula V is selected, for example, from BCAD (e.g., RCAD, KCAD), BCAT (e.g., RCAT, KCAT), BCED (e.g., RCED, KCED), BCSD (e.g., RCSD, KCSD), BCTD (e.g., RCTD, KCTD), and BCAS (e.g., RCAS, KCAS),

wherein the substitution adjacent to conserved cysteines C₅ or C₆ results for example in an amino acid sequence selected from RCAD, KCAD, RCED, KCED, RCSD, KCSD, RCTD and KCTD,

wherein the substitution adjacent to C₉ results for example in an amino acid sequence consisting of KCSD;

wherein the substitutions adjacent to one or both conserved cysteines selected from C₆ and C₁₀, in specific embodiments, produces an amino acid sequence represented by formula XXIII: EBC  (XXIII) wherein:

B is selected from basic amino acid residues (e.g., R or K, or modified form thereof); and

C is a conserved cysteine, or modified form thereof, selected from C₆ and C₉,

wherein the substitution adjacent to conserved cysteine C₁₀, in specific embodiments, produces an amino acid sequence represented by formula XXIV: GBC  (XXIV) wherein:

B is selected from basic amino acid residues (e.g., R or K, or modified form thereof); and

C is conserved cysteine C₁₀, or modified form thereof,

wherein the substitution adjacent to one or both conserved cysteines selected from C₅ and C₁₀, in specific embodiments, produces an amino acid sequence represented by formula XXV: GBCΩ  (XXV) wherein:

B is selected from basic amino acid residues (e.g., R or K, or modified form thereof);

C is a conserved cysteine, or modified form thereof, selected from C₅ and C₁₀; and

Ω is selected from small amino acid residues (e.g., A, S or T, or modified form thereof) or acidic amino acid residues (e.g., E, or modified form thereof),

wherein GBCΩ is represented, for example, by GBCA,

wherein the substitution adjacent to one or both conserved cysteines selected from C₅ and C₁₀, in specific embodiments, produces an amino acid sequence represented by formula XXVI: GBCΩΩ  (XXVI) wherein:

B is selected from basic amino acid residues (e.g., R or K, or modified form thereof);

C is a conserved cysteine, or modified form thereof, selected from C₅ and C₁₀; and

Ω is selected from small amino acid residues (e.g., A, S or T, or modified form thereof) or acidic amino acid residues (e.g., E, or modified form thereof),

wherein GBCΩΩ is represented for example by GBCAT.

In advantageous embodiments, the modifications according to any one of i) to v) as defined herein elevate the optimal temperature range, including the optimal temperature, of luciferase function and are also referred to herein as “optimal temperature range-elevating modifications” or “optimal temperature-elevating modifications.”

Suitably, the methods comprise modifying the reference polypeptide, wherein the modification results in the preparation of a modified luciferase comprising at least 1, 2, 3, 4, 5 modifications as defined in i) to v) above. Illustrative combinations of modifications are listed in Table A below.

TABLE A ii) iii) iv) v) i) ▪ ▪ ▪ ▪ ii) ▪ ▪ ▪ iii) ▪ ▪ iv) ▪ i), ii) ▪ ▪ ▪ i), iii) ▪ ▪ i), iv) ▪ ii), iii) ▪ ▪ ii), iv) ▪ iii), iv) ▪ i), ii), iii) ▪ ▪ i), ii), iv); ▪ i), iii), iv) ▪ ii), iii), iv) ▪ i), ii), iii), iv) ▪

In some embodiments, a copepod amino acid sequence is used as basis for the modification and suitably comprises, consists or consists essentially of the amino acid sequence as defined in formula I or a sequence that shares at least 70% (and at least 71% to at least 99% and all integer percentages in between) sequence similarity or sequence identity with the amino acid sequence represented by formula I.

In specific embodiments, the at least one modification is selected from the group consisting of:

L, or modified form thereof, at at least one position corresponding to positions 85 or 98 (relative to the consensus numbering shown in FIG. 1);

a basic amino acid residue immediately upstream of at least one conserved cysteine selected from C₅, C₆, C₉ and C₁₀ to yield a BC motif; and

a deletion in whole or in part of the reference copepod luciferase amino acid sequence, wherein the amino acid sequence spans downstream of the signal peptide sequence and upstream of the amino acid residue at position 85 (relative to the consensus numbering shown in FIG. 1), suitably upstream of about residue 84, 83, 82, 81, 80, 79, 78, 77, 76, 75, 74, 73, 72, 71 (relative to the consensus numbering shown in FIG. 1).

In some of these embodiments, the polypeptides comprise (1) L, or modified form thereof, at position 85 (relative to the consensus numbering shown in FIG. 1). In some embodiments, the polypeptides comprise (2) L, or modified form thereof, at position 98 (relative to the consensus numbering shown in FIG. 1). Suitably, the polypeptides comprise (3) L, or modified form thereof, at position 85 and 98 (relative to the consensus numbering shown in FIG. 1).

In some of these embodiments, the polypeptides comprise (4) a BC motif at at least one position corresponding to conserved cysteines C₆ and C₉. In representative examples of this type, the polypeptides comprise (5) a BC motif at a position corresponding to conserved cysteine C₆. In other representative examples, the polypeptides comprise (6) a BC motif at a position corresponding to conserved cysteine C₉. In still other representative examples, the polypeptides comprise (7) a BC motif at positions corresponding to each of conserved cysteines C₆ and C₉.

In some of these embodiments, the polypeptides comprise (8) a BCΩ motif at at least one position corresponding to conserved cysteines C₅, C₆ and C₉. In representative examples of this type, the polypeptides comprise (9) a BCΩ motif at a position corresponding to conserved cysteine C₅. In other representative examples, the polypeptides comprise (10) a BCΩ motif at a position corresponding to conserved cysteine C₆. In still other representative examples, the polypeptides comprise (11) a BCΩ motif at a position corresponding to conserved cysteine C₉. In still other representative examples, the polypeptides comprise (12) a BCΩ motif at positions corresponding to each of conserved cysteines C₅ and C₆. In still other representative examples, the polypeptides comprise (13) a BCΩ motif at positions corresponding to each of conserved cysteines C₅ and C₉. In still other representative examples, the polypeptides comprise (14) a BCΩ motif at positions corresponding to each of conserved cysteines C₆ and C₉. In still other representative examples, the polypeptides comprise (15) a BCΩ motif at positions corresponding to each of conserved cysteines C₅, C₆ and C₉.

In some of these embodiments, the polypeptides comprise (16) a BCΩΩ motif at at least one position corresponding to conserved cysteines C₅, C₆ and C₉. In representative examples of this type, the polypeptides comprise (17) a BCΩΩ motif at a position corresponding to conserved cysteine C₅. In other representative examples, the polypeptides comprise (18) a BCΩΩ motif at a position corresponding to conserved cysteine C₆. In still other representative examples, the polypeptides comprise (19) a BCΩΩ motif at a position corresponding to conserved cysteine C₉. In still other representative examples, the polypeptides comprise (20) a BCΩΩ motif at positions corresponding to each of conserved cysteines C₅ and C₆. In still other representative examples, the polypeptides comprise (21) a BCΩΩ motif at positions corresponding to each of conserved cysteines C₅ and C₉. In still other representative examples, the polypeptides comprise (22) a BCΩΩ motif at positions corresponding to each of conserved cysteines C₆ and C₉. In other representative examples, the polypeptides comprise (23) a BCΩΩ motif at positions corresponding to each of conserved cysteines C₅, C₆ and C₉.

In some of these embodiments, the polypeptides comprise (24) a BCΩD motif at at least one position corresponding to conserved cysteines C₅, C₆, C₉ and C₁₀. In representative examples of this type, the polypeptides comprise (25) a BCΩD motif at a position corresponding to conserved cysteine C₅. In other representative examples, the polypeptides comprise (26) a BCΩD motif at a position corresponding to conserved cysteine C₆. In still other representative examples, the polypeptides comprise (27) a BCΩD motif at a position corresponding to conserved cysteine C₉. In other representative examples, the polypeptides comprise (28) a BCΩD motif at a position corresponding to conserved cysteine C₁₀. In still other representative examples, the polypeptides comprise (29) a BCΩD motif at positions corresponding to each of conserved cysteines C₅ and C₆. In still other representative examples, the polypeptides comprise (30) a BCΩD motif at positions corresponding to each of conserved cysteines C₅ and C₉. In other representative examples, the polypeptides comprise (31) a BCΩD motif at positions corresponding to each of conserved cysteines C₅ and C₁₀. In still other representative examples, the polypeptides comprise (32) a BCΩD motif at positions corresponding to each of conserved cysteines C₆ and C₉. In still other representative examples, the polypeptides comprise (33) a BCΩD motif at positions corresponding to each of conserved cysteines C₆ and C₁₀. In still other representative examples, the polypeptides comprise (34) a BCΩD motif at positions corresponding to each of conserved cysteines C₉ and C₁₀. In other representative examples, the polypeptides comprise (35) a BCΩD motif at positions corresponding to each of conserved cysteines C₅, C₆ and C₉. In still other representative examples, the polypeptides comprise (36) a BCΩD motif at positions corresponding to each of conserved cysteines C₅, C₆ and C₁₀. In still other representative examples, the polypeptides comprise (37) a BCΩD motif at positions corresponding to each of conserved cysteines C₅, C₉ and C₁₀. In other representative examples, the polypeptides comprise (38) a BCΩD motif at positions corresponding to each of conserved cysteines C₆, C₉ and C₁₀. In still other representative examples, the polypeptides comprise (39) a BCΩD motif at positions corresponding to each of conserved cysteines C₅, C₆, C₉ and C₁₀.

In some of these embodiments, the polypeptides comprise (40) an EBC motif at at least one position corresponding to conserved cysteines C₅, C₆, C₉ and C₁₀. In representative examples of this type, the polypeptides comprise (41) an EBC motif at a position corresponding to conserved cysteine C₅. In other representative examples, the polypeptides comprise (42) an EBC motif at a position corresponding to conserved cysteine C₆. In still other representative examples, the polypeptides comprise (43) an EBC motif at a position corresponding to conserved cysteine C₉. In other representative examples, the polypeptides comprise (44) an EBC motif at a position corresponding to conserved cysteine C₁₀. In still other representative examples, the polypeptides comprise (45) an EBC motif at positions corresponding to each of conserved cysteines C₅ and C₆. In still other representative examples, the polypeptides comprise (46) an EBC motif at positions corresponding to each of conserved cysteines C₅ and C₉. In other representative examples, the polypeptides comprise (47) an EBC motif at positions corresponding to each of conserved cysteines C₅ and C₁₀. In still other representative examples, the polypeptides comprise (48) an EBC motif at positions corresponding to each of conserved cysteines C₆ and C₉. In still other representative examples, the polypeptides comprise (49) an EBC motif at positions corresponding to each of conserved cysteines C₆ and C₁₀. In still other representative examples, the polypeptides comprise (50) an EBC motif at positions corresponding to each of conserved cysteines C₉ and C₁₀. In other representative examples, the polypeptides comprise (51) an EBC motif at positions corresponding to each of conserved cysteines C₅, C₆ and C₉. In still other representative examples, the polypeptides comprise (52) an EBC motif at positions corresponding to each of conserved cysteines C₅, C₆ and C₁₀. In still other representative examples, the polypeptides comprise (53) an EBC motif at positions corresponding to each of conserved cysteines C₅, C₉ and C₁₀. In other representative examples, the polypeptides comprise (54) an EBC motif at positions corresponding to each of conserved cysteines C₆, C₉ and C₁₀. In still other representative examples, the polypeptides comprise (55) an EBC motif at positions corresponding to each of conserved cysteines C₅, C₆, C₉ and C₁₀.

In some of these embodiments, the polypeptides comprise (56) a GBC motif at at least one position corresponding to conserved cysteines C₆, C₉ and C₁₀. In representative examples of this type, the polypeptides comprise (57) a GBC motif at a position corresponding to conserved cysteine C₆. In other representative examples, the polypeptides comprise (58) a GBC motif at a position corresponding to conserved cysteine C₉. In still other representative examples, the polypeptides comprise (59) a GBC motif at a position corresponding to conserved cysteine C₁₀. In still other representative examples, the polypeptides comprise (60) a GBC motif at positions corresponding to each of conserved cysteines C₆ and C₉. In still other representative examples, the polypeptides comprise (61) a GBC motif at positions corresponding to each of conserved cysteines C₆ and C₁₀. In still other representative examples, the polypeptides comprise (62) a GBC motif at positions corresponding to each of conserved cysteines C₉ and C₁₀. In still other representative examples, the polypeptides comprise (63) a GBC motif at positions corresponding to each of conserved cysteines C₆, C₉ and C₁₀.

In some of these embodiments, the polypeptides comprise (64) a BCA motif at at least one position corresponding to conserved cysteines C₅, C₆ and C₉. In representative examples of this type, the polypeptides comprise (65) a BCA motif at a position corresponding to conserved cysteine C₅. In other representative examples, the polypeptides comprise (66) a BCA motif at a position corresponding to conserved cysteine C₆. In still other representative examples, the polypeptides comprise (67) a BCA motif at a position corresponding to conserved cysteine C₉. In still other representative examples, the polypeptides comprise (68) a BCA motif at positions corresponding to each of conserved cysteines C₅ and C₆. In still other representative examples, the polypeptides comprise (69) a BCA motif at positions corresponding to each of conserved cysteines C₅ and C₉. In still other representative examples, the polypeptides comprise (70) a BCA motif at positions corresponding to each of conserved cysteines C₆ and C₉. In still other representative examples, the polypeptides comprise (71) a BCA motif at positions corresponding to each of conserved cysteines C₅, C₆ and C₉.

In some of these embodiments, the polypeptides comprise (72) a BCAΩ motif at at least one position corresponding to conserved cysteines C₅, C₆ and C₉. In representative examples of this type, the polypeptides comprise (73) a BCAΩ motif at a position corresponding to conserved cysteine C₅. In other representative examples, the polypeptides comprise (74) a BCAΩ motif at a position corresponding to conserved cysteine C₆. In still other representative examples, the polypeptides comprise (75) a BCAΩ motif at a position corresponding to conserved cysteine C₉. In still other representative examples, the polypeptides comprise (76) a BCAΩ motif at positions corresponding to each of conserved cysteines C₅ and C₆. In still other representative examples, the polypeptides comprise (77) a BCAΩ motif at positions corresponding to each of conserved cysteines C₅ and C₉. In still other representative examples, the polypeptides comprise (78) a BCAΩ motif at positions corresponding to each of conserved cysteines C₆ and C₉. In still other representative examples, the polypeptides comprise (79) a BCAΩ motif at positions corresponding to each of conserved cysteines C₅, C₆ and C₉.

In some of these embodiments, the polypeptides comprise (80) a XBC motif at a position corresponding to conserved cysteine C₁₀ wherein X is other than D or P, and is selected, for example, from R or K or modified form thereof, more suitably H or modified form thereof, even more suitably T, A, S or N or modified form thereof, preferably Q or modified form thereof, more preferably G or modified form thereof, even more preferably E or modified form thereof.

In some of these embodiments, the polypeptides comprise (81) a deletion in whole or in part of the reference copepod luciferase amino acid sequence, wherein the amino acid sequence spans downstream of the signal peptide sequence and upstream of the amino acid residue at position 85 (relative to the consensus numbering shown in FIG. 1), suitably upstream of about residue 84, 83, 82, 81, 80, 79, 78, 77, 76, 75, 74, 73, 72, 71 (relative to the consensus numbering shown in FIG. 1).

Suitably, the polypeptides comprise at least one amino acid as defined in (1) to (3) and a motif as defined in any one of (4) to (7). In other embodiments, the polypeptides comprise at least one amino acid as defined in (1) to (3) and a motif as defined in any one of (8) to (15). In still other embodiments, the polypeptides comprise at least one amino acid as defined in (1) to (3) and a motif as defined in any one of (16) to (23). In still other embodiments, the polypeptides comprise at least one amino acid as defined in (1) to (3) and a motif as defined in any one of (24) to (39). In still other embodiments, the polypeptides comprise at least one amino acid as defined in (1) to (3) and a motif as defined in any one of (40) to (55). In still other embodiments, the polypeptides comprise at least one amino acid as defined in (1) to (3) and a motif as defined in any one of (56) to (63). In other embodiments, the polypeptides comprise at least one amino acid as defined in (1) to (3) and a motif as defined in any one of (64) to (71). In still other embodiments, the polypeptides comprise at least one amino acid as defined in (1) to (3) and a motif as defined in any one of (72) to (79). In still other embodiments, the polypeptides comprise at least one amino acid as defined in (1) to (3) and a motif as defined in (80). In still other embodiments, the polypeptides comprise at least one amino acid as defined in (1) to (3) and a deletion as defined in (81). In other embodiments, the polypeptides comprise a motif as defined in any one of (4) to (8) and a deletion as defined in (81). In still other embodiments, the polypeptides comprise at least one amino acid as defined in (1) to (3), a motif as defined in any one of (4) to (8) and a deletion as defined in (81).

In a related aspect, the present invention provides methods for preparing a modified copepod luciferase polypeptide with an elevated optimal temperature range, including an elevated optimal temperature, of luciferase function. These methods generally comprise preparing a modified copepod luciferase polypeptide such that it comprises, consists or consists essentially of an amino acid sequence that is distinguished from a reference copepod luciferase polypeptide by at least one amino acid sequence modification, wherein the at least one amino acid sequence modification is selected on the basis that it elevates the optimal temperature range of luciferase function relative to the reference copepod luciferase polypeptide.

Suitably, the at least one effective temperature range-elevating modification is selected from the group consisting of modifications i) to v) as defined infra. In illustrative examples of this type, the reference polypeptide is modified to include at least 1, 2, 3, 4, 5 modifications according to i) to xi) as defined herein, and as for example illustrated in Table A.

In some embodiments, the at least one modification elevates the optimal temperature range, including optimal temperature, of luciferase function by at least 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30° C. In illustrative examples of this type, the at least one modification elevates the optimal temperature range of luciferase function to. Suitably, the at least one modification elevates the optimal temperature of luciferase function to 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39 or 40° C. In specific embodiments, the at least one modification results in enhanced luciferase activity at 37° C. In other specific embodiments, the at least one modification results in enhanced luciferase activity at room temperature (e.g., 22° C.).

In some embodiments, the methods comprise modifying the reference polypeptide so that it includes an L or modified form thereof at position 85 (relative to the consensus numbering shown in FIG. 1).

Suitably, the methods further comprise determining the activity of the polypeptide so prepared (e.g., strength of flash signal intensity, strength of glow signal intensity, glow signal stability and effective temperature range, including elevated optimal temperature range, of luciferase function).

In some embodiments, the methods further comprise comparing the activity of the polypeptide to the activity of the reference luciferase polypeptide.

Non-limiting reference luciferase polypeptide sequences may be selected from:

[SEQ ID NO:2] (full-length sequence of Gaussia princeps Prolume luciferase);

[SEQ ID NO:4] (full-length sequence of Gaussia princeps Prolume KDEL luciferase);

[SEQ ID NO:6] (full-length sequence of Gaussia princeps Mutant 1 luciferase);

[SEQ ID NO:8] (full-length sequence of Gaussia princeps Mutant 2 luciferase);

[SEQ ID NO:10] (full-length sequence of Gaussia princeps GS luciferase);

[SEQ ID NO:166] (full-length sequence of Metridia pacifica 2bv1 luciferase);

[SEQ ID NO:168] (full-length sequence of Metridia pacifica 2bv2 luciferase);

[SEQ ID NO:170] (full-length sequence of Metridia longa 22 luciferase);

[SEQ ID NO:172] (full-length sequence of Metridia longa 39 luciferase);

[SEQ ID NO: 790] MGVKLIFAVLCVAAAQAATINENFEDIDVVAIGGSFALDVDANRGGHGGH PGKKMPKEVLVEMEANAKRAGCHRGCLICLSHIKCTKKMKKFIPGRCHSYEGDKDSAQGGIG EEIVDMPEIPGFKDKEPMDQFIAQVDLCVDCTTGCLKGLANVHCSALLKKWLPSRCKTFASKI QSQVDTIKGLAGDR (full-length sequence of Metridia pacifica 2a luciferase, also referred to herein as MP2a); [SEQ ID NO: 792] MMEIQVLFALICFALVQANPTENKDDIDIVGVEGKFGTTDLETDLFTIVED MNVISRDTNLANSDADRGKMPGKKLPLEVLIEMEANARKAGCTRGCLICLSKIKCTAKMKV YIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKELGPMEQFIAQVDLCADCTTGCLKGLANV KCSALLKKWLPDRCASFADKIQSEVDNIKGLAGDR (full-length sequence of Metridia pacifica 1v1 luciferase, also referred to herein as MP1v1); [SEQ ID NO: 794] MMEIKVLFALICFALVQANPTENKDDIDIVGVEGKFGTTDLETDLFTIVED MNVISRDTNLANSDADRGKMPGKKLPLEVLIEMEANARKAGCTRGCLICLSKIKCTAKMKV YIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKELGPMEQFIAQVDLCADCTTGCLKGLANV KCSALLKKWLPDRCASFADKIQSEVDNIKGLAGDR (full-length sequence of Metridia pacifica 1v2 luciferase, also referred to herein as MP1v2); [SEQ ID NO: 796] MMEVKVVFALICFALVQANPTENKDDIDIVGVEGKFGTTDLETDLFTIVED MNVISRDTNLANSDADRGKMPGKKLPLEVLIEMEANARKAGCTRGCLICLSKIKCTAKMKV YIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKELGPMEQFIAQVDLCADCTTGCLKGLANV KCSALLKKWLPDRCASFADKIQSEVDNIKGLAGDR (full-length sequence of Metridia pacifica 1v3 luciferase, also referred to herein as MP1v3); [SEQ ID NO: 798] MDIKFIFALVCIALVQANPTVNNDVNRGKMPGKKLPLEVLIEMEANAFKA GCTRGCLICLSKIKCTAKMKQYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMEPMEQFI AQVDLCADCTTGCLKGLANVKCSELLKKWLPDRCASFADKIQKEAHNIKGLAGDR (full-length sequence of Metridia longa 7 luciferase,   also referred to herein as ML7); [SEQ ID NO: 800] MKTDIADTDRASNFVATETDANRGKMPGKKLPLAVIMEMEANAFKAGCT RGCLICLSKIKCTAKMKVYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQ VDRCASCTTGCLKGLANVKCSELLKKWLPDRCASFADKIQKEVHNIKGMAGDR (full-length sequence of Metridia longa GS luciferase,   also referred to herein as MLGS); [SEQ ID NO: 802] MDIKVVFTLVFSALVQAQKTDIADTDRASNFVATETDANRGKMPGKKLPL AVIMEMEANAFKAGCTRGCLICLSKIKCTAKMKVYIPGRCHDYGGDKKTGQAGIVGAIVDIP EISGFKEMAPMEQFIAQVDRCASCTTGCLKGLANVKCSELLKKWLPDRCASFADKIQKEVHN IKGMAGDR (full-length sequence of Metridia longa 164M3 luciferase, also referred to herein as ML164M3); [SEQ ID NO: 804] MDIKVVFTLVFSALVQAKSTEFDPNIDIVGLEGKFGITNLETDLFTIWETME VMIKADIADTDRASNFVATETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIK CTAKMKVYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDRCASCTTG CLKGLANVKCSELLKKWLPDRCASFADKIQKEVHNIKGMAGDR (full-length sequence of Metridia longa 164v1 luciferase, also referred to herein as ML164v1); [SEQ ID NO: 806] MDIKVVFTLVFSALVQAKSTEFDPNIDIVGLEGKFGITNLETDLFTIWETME VMIKADIADTDRASNFVATETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIK CTAKMKVYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVERCASCTTGC LKGLANVKCSELLKKWLPDRCASFADKIQKEVHNIKGMAGDR (full-length sequence of Metridia longa 164v2 luciferase, also  referred to herein as ML164v2); [SEQ ID NO: 808] MDMKVIFALIFSALVQAKSTEFDPNIDIVGLEGKFGITNLETDLFTIWETME VIKSDIADTDRVSNFVATETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCT AKMKVYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDRCTSCTTGCL KGLANVKCSELLKKWLPDRCASFADKIQKEVHNIKGMAGDR (full-length sequence of luciferase Metridia longa 16 luciferase, also referred to herein as ML16); [SEQ ID NO: 810] MDIKVVFALVFSALVQAKSTEFDPNIDIVGLEGKFGITNLETDLFTIWETME VIKTDIADTDRARSFVATETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCT AKMKVYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMEPMEQFIAQVDRCASCTTGCL KGLANVKCSELLKKWLPDRCASFADKIQKEVHNIKGMAGDR (full-length sequence of Metridia longa 45 luciferase, also referred to herein as ML45); [SEQ ID NO: 812] MDIKVVFALVFSALVQAKSTEFDPNIDVVGLEGKFGITNLETDLFTIWETM EVIKTDIADTDRARNFVATETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIK CTAKMKVYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMEPMEQFIAQVDRCASCNTG CLKGLANVKCSELLKKWLPDRCASFADKIQKEVHNIKGMAGDR (full-length sequence of Metridia longa 52 luciferase, also referred to herein as ML52) and [SEQ ID NO: 814] MDMRVIFALVFSSLVQAKSTEFDPNINIVGLEGKFGITNLETDLFTIWETMD VIKSDITDTDRVSNFVATETDANRGKMPGKKLPLAVIMEMEANAFKAGCTRGCLICLSKIKCT AKMKVYIPGRCHDYGGDKKTGQAGIVGAIVDIPEISGFKEMAPMEQFIAQVDLCATCTTGCL KGLANVKCSELLKKWLPGRCASFADKIQKEVHNIKGMAGDR (full-length sequence of Metridia longa AL luciferase, also referred to herein as MLAL).

In a related aspect, the invention provides

Another related aspect of the present invention provides constructs comprising a nucleic acid molecule as broadly described above, operably connected to a regulatory sequence.

In yet another aspect, the present invention provides host cells containing a construct as broadly described above.

In still another aspect, the present invention provides methods for evaluating the activity of a reporter enzyme associated with a cell, wherein the reporter enzyme comprises, consists or consists essentially of a polypeptide as broadly described above, with improved light-emitting characteristics (e.g., improved luminescence, improved flash signal intensity, improved glow signal intensity, improved glow signal stability and improved effective temperature range, including elevated optimal temperature range, of luciferase function). These methods generally comprise: (a) contacting the cell with coelenterazine or an analogue or derivative thereof (e.g., benzy-coelenterazine; bisdeoxycoelenterazine; coelenterazine, h-coelenterazine, f-coelenterazine, cl-coelenterazine, n-coelenterazine, cp-coelenterazine, ch-coelenterazine, hch-coelenterazine, fch-coelenterazine, e-coelenterazine, ef-coelenterazine, ech-coelenterazine, hcp-coelenterazine, and the like); and (b) detecting a signal generated from the coelenterazine or an analogue or derivative thereof to evaluate the activity of the reporter enzyme. In some embodiments, the detection is carried within the improved effective temperature range, including the elevated optimal temperature range, of luciferase function. In some embodiments, the cell contains a nucleic acid molecule as broadly described above.

In yet another aspect, the present invention provides kits comprising: a container comprising a polypeptide as broadly described above, or a nucleic acid molecule as broadly described above, or a construct as broadly described above, or a cell as broadly described above. In some embodiments, the kits further comprise a container comprising a luciferin, which is suitably lyophilized.

BRIEF DESCRIPTION OF THE DRAWINGS

The patent or application file contains at least one drawing executed in color. Copies of this patent or patent application publication with color drawing(s) will be provided by the Office upon request and payment of the necessary fee.

FIG. 1 is diagrammatic representation showing the results of a sequence alignment of the following putatively full-length luciferase amino acid sequences: [SEQ ID NO: 2] (Gaussia princeps Prolume luciferase); [SEQ ID NO:4] (Gaussia princeps Prolume KDEL luciferase); [SEQ ID NO:6] (Gaussia princeps Mutant 1 luciferase); [SEQ ID NO: 8] (Gaussia princeps Mutant 2 luciferase); [SEQ ID NO: 10] (Gaussia princeps GS luciferase); [SEQ ID NO: 166] (Metridia pacifica 2bv1 luciferase); [SEQ ID NO: 168] (Metridia pacifica 2bv2 luciferase); [SEQ ID NO: 170] (Metridia longa 22 luciferase); [SEQ ID NO: 172] (Metridia longa39 luciferase); [SEQ ID NO: 790] (Metridia pacifica 2a luciferase); [SEQ ID NO: 792] (Metridia pacifica 1v1 luciferase); [SEQ ID NO: 794] (Metridia pacifica 1v2 luciferase); [SEQ ID NO: 796] (Metridia pacifica 1v3 luciferase); [SEQ ID NO: 798] (Metridia longa7 luciferase); [SEQ ID NO: 800] (Metridia longa GS luciferase); [SEQ ID NO: 802] (Metridia longa 164M3 luciferase); [SEQ ID NO: 804] (Metridia longa 164v1 luciferase); [SEQ ID NO: 806] (Metridia longa164v2 luciferase); [SEQ ID NO: 808] (luciferase Metridia longa 16luciferase); [SEQ ID NO: 810] (Metridia longa 45luciferase); [SEQ ID NO: 812] (Metridia longa 52 luciferase); [SEQ ID NO: 814] (Metridia longa AL luciferase); and a consensus sequence SEQ ID NO: 905.

FIG. 2 is a graphical representation showing Glow F&G of lysates from fridge-RT-oven (relative to control RT plate).

FIG. 3 is a graphical representation showing Flash DLA plate of lysates from fridge to machine for injection of RT assay buffer.

FIG. 4 is a graphical representation showing Glow F&G at 21° C. into machine (end temperature increased by 0.5° C.).

FIG. 5 is a graphical representation showing Glow F&G of conditioned media from fridge-RT-oven (relative to control RT plate).

FIG. 6 is a graphical representation showing glow F&G luciferase data across a range of temperatures.

DETAILED DESCRIPTION OF THE INVENTION

1. Definitions

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by those of ordinary skill in the art to which the invention belongs. Although any methods and materials similar or equivalent to those described herein can be used in the practice or testing of the present invention, preferred methods and materials are described. For the purposes of the present invention, the following terms are defined below.

The articles “a” and “an” are used herein to refer to one or to more than one (i.e. to at least one) of the grammatical object of the article. By way of example, “an element” means one element or more than one element.

By “about” is meant a quantity, level, value, number, frequency, percentage, dimension, size, amount, weight, position or length that varies by as much 15, 14, 13, 12, 11, 10, 9, 8, 7, 6, 5, 4, 3, 2 or 1% to a reference quantity, level, value, number, frequency, percentage, dimension, size, amount, weight, position or length.

The term “biologically active fragment,” as applied to fragments of a reference or full-length polynucleotide or polypeptide sequence, refers to a fragment that has at least about 0.1, 0.5, 1, 2, 5, 10, 12, 14, 16, 18, 20, 22, 24, 26, 28, 30, 35, 40, 45, 50, 55, 60, 65, 70, 75, 80, 85, 90, 95, 96, 97, 98, 99% of the activity of a reference sequence. Included within the scope of the present invention are biologically active fragments of at least about 40, 50, 55, 60, 65, 70, 75, 80, 85, 90, 95, 100, 105, 110, 115, 120, 125, 130, 135, 140, 145, 150, 155, 160, 165, 170, 175, 180, 185, 190, 195, 200 residues in length or 120, 150, 180, 210, 240, 270, 300, 330, 360 390, 420, 450, 480, 510, 540, 570, 600 nucleotides in length, which fragments comprise or encode an activity of a reference polynucleotide or polypeptide. Representative biologically active fragments generally participate in an interaction, e.g., an intra-molecular or an inter-molecular interaction. For example, biologically active portions of a luciferase polypeptide according to the present invention (e.g., peptide or polypeptide) include polypeptides comprising amino acid sequences with sufficient similarity or identity to or derived from the amino acid sequence of the luciferase polypeptides of the present invention and comprise at least one activity selected from luminescence, flash signal, glow signal, stability of glow signal and enhanced effective temperature range, including elevated optimal temperature range, of the enzyme.

As used herein, the term “cis-acting sequence” or “cis-regulatory region” or similar term shall be taken to mean any sequence of nucleotides which is derived from an expressible genetic sequence wherein the expression of the genetic sequence is regulated, at least in part, by the sequence of nucleotides. Those skilled in the art will be aware that a cis-regulatory region may be capable of activating, silencing, enhancing, repressing or otherwise altering the level of expression and/or cell-type-specificity and/or developmental specificity of any structural gene sequence.

As used herein, a “chimeric construct” refers to a polynucleotide having heterologous nucleic acid elements. Chimeric constructs include “expression cassettes” or “expression constructs,” which refer to an assembly that is capable of directing the expression of the sequence(s) or gene(s) of interest (e.g., a luciferase coding sequence). An expression cassette generally includes control elements such as a promoter that is operably linked to (so as to direct transcription of) a synthetic polynucleotide of the invention, and often includes a polyadenylation sequence as well. Within certain embodiments of the invention, the chimeric construct may be contained within a vector. In addition to the components of the chimeric construct, the vector may include, one or more selectable markers, a signal which allows the vector to exist as single-stranded DNA (e.g., a M13 origin of replication), at least one multiple cloning site, and a “mammalian” origin of replication (e.g., a SV40 or adenovirus origin of replication).

By “coding sequence” is meant any nucleic acid sequence that contributes to the code for the polypeptide product of a gene. By contrast, the term “non-coding sequence” refers to any nucleic acid sequence that does not contribute to the code for the polypeptide product of a gene.

The terms “complementary” and “complementarity” refer to polynucleotides (i.e., a sequence of nucleotides) related by the base-pairing rules. For example, the sequence “A-G-T,” is complementary to the sequence “T-C-A.” Complementarity may be “partial,” in which only some of the nucleic acids' bases are matched according to the base pairing rules. Or, there may be “complete” or “total” complementarity between the nucleic acids. The degree of complementarity between nucleic acid strands has significant effects on the efficiency and strength of hybridization between nucleic acid strands.

Throughout this specification, unless the context requires otherwise, the words “comprise,” “comprises” and “comprising” will be understood to imply the inclusion of a stated step or element or group of steps or elements but not the exclusion of any other step or element or group of steps or elements. Thus, use of the term “comprising” and the like indicates that the listed elements are required or mandatory, but that other elements are optional and may or may not be present. By “consisting of” is meant including, and limited to, whatever follows the phrase “consisting of”. Thus, the phrase “consisting of” indicates that the listed elements are required or mandatory, and that no other elements may be present. By “consisting essentially of” is meant including any elements listed after the phrase, and limited to other elements that do not interfere with or contribute to the activity or action specified in the disclosure for the listed elements. Thus, the phrase “consisting essentially of” indicates that the listed elements are required or mandatory, but that other elements are optional and may or may not be present depending upon whether or not they affect the activity or action of the listed elements.

By “corresponds to” or “corresponding to” is meant an amino acid sequence that displays substantial sequence similarity or identity to a reference amino acid sequence In general an amino acid sequence that corresponds to a reference amino acid sequence will display at least about 50, 51, 52, 53, 54, 55, 56, 57, 58, 59, 60, 61, 62, 63, 64, 65, 66, 67, 68, 69, 70, 71, 72, 73, 74, 75, 76, 77, 78, 79, 80, 81, 82, 83, 84, 85, 86, 97, 88, 89, 90, 91, 92, 93, 94, 95, 96, 97, 98, 99% or even up to 100% sequence similarity or identity to at least a portion of the reference amino acid sequence.

By “gene” is meant a unit of inheritance that occupies a specific locus on a chromosome and consists of transcriptional and/or translational regulatory sequences and/or a coding region and/or non-translated sequences (i.e., introns, 5′ and 3′ untranslated sequences).

The term “host cell” includes an individual cell or cell culture that can be or has been a recipient of any recombinant construct(s) or isolated polynucleotide of the invention. Host cells include progeny of a single host cell, and the progeny may not necessarily be completely identical (in morphology or in total DNA complement) to the original parent cell due to natural, accidental, or deliberate mutation and/or change. A host cell includes cells transfected or infected in vivo or in vitro with a recombinant construct or a polynucleotide of the invention. A host cell, which comprises a recombinant construct of the invention, is a recombinant host cell.

“Hybridization” is used herein to denote the pairing of complementary nucleotide sequences to produce a DNA-DNA hybrid or a DNA-RNA hybrid. Complementary base sequences are those sequences that are related by the base-pairing rules. In DNA, A pairs with T and C pairs with G. In RNA U pairs with A and C pairs with G. In this regard, the terms “match” and “mismatch” as used herein refer to the hybridization potential of paired nucleotides in complementary nucleic acid strands. Matched nucleotides hybridize efficiently, such as the classical A-T and G-C base pair mentioned above. Mismatches are other combinations of nucleotides that do not hybridize efficiently.

By “isolated” is meant material that is substantially or essentially free from components that normally accompany it in its native state. For example, an “isolated polynucleotide,” as used herein, refers to a polynucleotide, which has been purified from the sequences that flank it in a naturally occurring state, e.g., a DNA fragment, which has been removed from the sequences that are normally adjacent to the fragment. Alternatively, an “isolated peptide” or an “isolated polypeptide” and the like, as used herein, refer to in vitro isolation and/or purification of a polypeptide molecule from its natural cellular environment, and from association with other components of the cell, i.e., it is not associated with in vivo substances. Similarly, an “isolated” or “purified” proteinaceous molecule (e.g., peptide, polypeptide, protein etc) is substantially free of cellular material or other contaminating molecules from the cell or tissue source from which the proteinaceous molecule is derived, or substantially free from chemical precursors or other chemicals when chemically synthesized. “Substantially free” means that a preparation of a luciferase polypeptide according to the invention is at least 10, 15, 20, 25, 30, 35, 40, 45, 50, 55, 60, 65, 70, 75, 80, 85, 90, 91, 92, 93, 94, 95, 96, 97, 98 or 99% pure. In a preferred embodiment, the preparation of luciferase polypeptide has less than about 30, 25, 20, 15, 10, 9, 8, 7, 6, 5, 4, 3, 2 or 1% (by dry weight), of non-luciferase polypeptides (also referred to herein as a “contaminating molecules”), or of chemical precursors or non-luciferase chemicals. When the luciferase polypeptide is recombinantly produced, it is also desirably substantially free of culture medium, i.e., culture medium represents less than about 20, 15, 10, 5, 4, 3, 2, 1% of the volume of the luciferase preparation. The invention includes isolated or purified preparations of at least 0.01, 0.1, 1.0, and 10 milligrams in dry weight.

The term “luminescence” refers to the light output of a luciferase polypeptide under appropriate conditions, e.g., in the presence of a suitable substrate such as a coelenterazine. The light output may be measured as an instantaneous or near-instantaneous measure of light output (typically in seconds, which is sometimes referred to as “T=0” luminescence or “flash”) upon start of the luminescence reaction, which may start upon addition of the coelenterazine substrate. The luminescence reaction in various embodiments is carried out in a solution containing lysate, for example from the cells in a prokaryotic or eukaryotic expression system; in other embodiments, expression occurs in an in vitro system or the luciferase protein is secreted into an extracellular medium, such that, in this latter case, it is not necessary to produce a lysate. In some embodiments, the reaction is started by injecting appropriate materials (e.g., coelenterazine) into a reaction chamber (e.g., a well of a multi-well plate such as a 96-well plate) containing the luciferase protein. The reaction chamber may be situated in a reading device that can measure the light output, e.g., using a luminometer or photomultiplier. The light output or luminescence may also be measured over time, for example in the same reaction chamber for minutes, hours, etc. (which is sometimes referred to as “glow”). The light output or luminescence may be reported as the average over time, the half-life of decay of signal, the sum of the signal over a period of time, or as the peak output. Enhanced luminescence includes increased light output or luminescence, determined by suitable comparison of comparably obtained measurements. As disclosed herein, one or more suitable amino acid modifications to copepod luciferase sequences produce modified luciferase polypeptides with enhanced luminescence. Changes in the nucleotide sequence from a wild-type or other parent copepod luciferase nucleotide sequence may contribute to enhanced luminescence by leading to an amino acid substitution and/or by enhancing protein expression. Enhanced signal stability includes an increase in how long the signal from a luciferase continues to luminesce (“glow”), for example, as measured by the half-life of decay of the signal in a time-course. Enhanced effective temperature range for luciferase operation includes a broader temperature range at which luminescence assays can be performed whilst maintaining suitable signal strength; i.e., without substantial temperature-dependent loss in signal strength. For example, the luciferase displays minimal or insubstantial changes in activity in response to temperature fluctuations across a broader range of temperatures (e.g., above or below room temperature). Enhanced effective temperature range also includes within its scope modifying a luciferase's temperature range so that it can perform at or about the intended temperature of an assay to be performed (e.g., at or about 37° C. for an in vivo assay that is performed within a living mammal or at or about room temperature (RT; ˜22° C.) for a bench-top assay or at or about 4° C. for assays such as immunoassays performed in a fridge or cold room in order to minimize degradation of essential reaction components in the sample and/or assay reagents). In advantageous embodiments of this type, the luciferase's temperature range (including optimal temperature) is elevated as compared to its temperature range (or optimal temperature) before modification or to a control or reference luciferase, when measured under the same reaction conditions. The precise optimal temperature may vary according to a reaction condition, such as a reaction solution, but the elevation in temperature range (including optimal temperature) of a luciferase would be readily apparent to one of ordinary skill in the art when measured under given buffer conditions, such as those described herein. The term “optimal temperature range” as used herein refers to the range of temperatures in which a luciferase exhibits a signal strength of at least 80% of the signal strength at its optimal temperature. An “elevated optimal temperature range” means a temperature range comprising a higher upper threshold temperature as compared to the upper threshold temperature of the optimal temperature range of a reference luciferase.

The term “5′ non-coding region” is used herein in its broadest context to include all nucleotide sequences which are derived from the upstream region of an expressible gene, other than those sequences which encode amino acid residues which comprise the polypeptide product of the gene, wherein 5′ non-coding region confers or activates or otherwise facilitates, at least in part, expression of the gene.

The term “operably connected” or “operably linked” as used herein means placing a structural gene under the regulatory control of a regulatory element including but not limited to a promoter, which then controls the transcription and optionally translation of the gene. In the construction of heterologous promoter/structural gene combinations, it is generally preferred to position the genetic sequence or promoter at a distance from the gene transcription start site that is approximately the same as the distance between that genetic sequence or promoter and the gene it controls in its natural setting; i.e. the gene from which the genetic sequence or promoter is derived. As is known in the art, some variation in this distance can be accommodated without loss of function. Similarly, the preferred positioning of a regulatory sequence element with respect to a heterologous gene to be placed under its control is defined by the positioning of the element in its natural setting; i.e. the genes from which it is derived.

The term “oligonucleotide” as used herein refers to a polymer composed of a multiplicity of nucleotide residues (deoxyribonucleotides or ribonucleotides, or related structural variants or synthetic analogues thereof) linked via phosphodiester bonds (or related structural variants or synthetic analogues thereof). Thus, while the term “oligonucleotide” typically refers to a nucleotide polymer in which the nucleotide residues and linkages between them are naturally occurring, it will be understood that the term also includes within its scope various analogues including, but not restricted to, peptide nucleic acids (PNAs), phosphoramidates, phosphorothioates, methyl phosphonates, 2-O-methyl ribonucleic acids, and the like. The exact size of the molecule can vary depending on the particular application. An oligonucleotide is typically rather short in length, generally from about 10 to 30 nucleotide residues, but the term can refer to molecules of any length, although the term “polynucleotide” or “nucleic acid” is typically used for large oligonucleotides.

The term “polynucleotide” or “nucleic acid” as used herein designates mRNA, RNA, cRNA, cDNA or DNA. The term typically refers to polymeric form of nucleotides of at least 10 bases in length, either ribonucleotides or deoxynucleotides or a modified form of either type of nucleotide. The term includes single and double stranded forms of DNA.

The terms “polynucleotide variant” and “variant” and the like refer to polynucleotides displaying substantial sequence identity with a reference polynucleotide sequence or polynucleotides that hybridize with a reference sequence under stringent conditions that are defined hereinafter. These terms also encompass polynucleotides that are distinguished from a reference polynucleotide by the addition, deletion or substitution of at least one nucleotide. Accordingly, the terms “polynucleotide variant” and “variant” include polynucleotides in which one or more nucleotides have been added or deleted, or replaced with different nucleotides. In this regard, it is well understood in the art that certain alterations inclusive of mutations, additions, deletions and substitutions can be made to a reference polynucleotide whereby the altered polynucleotide retains the biological function or activity of the reference polynucleotide. The terms “polynucleotide variant” and “variant” also include naturally occurring allelic variants.

“Polypeptide,” “peptide,” “protein” and “proteinaceous molecule” are used interchangeably herein to refer to molecules comprising or consisting of a polymer of amino acid residues and to variants and synthetic analogues of the same. Thus, these terms apply to amino acid polymers in which one or more amino acid residues are synthetic non-naturally occurring amino acids, such as a chemical analogue of a corresponding naturally occurring amino acid, as well as to naturally-occurring amino acid polymers. This term also includes within its scope two or more complementing or interactive polypeptides comprising different parts or portions (e.g., polypeptide domains, polypeptide chains etc.) of a luciferase polypeptide of the present invention, wherein the individual complementing polypeptides together reconstitute the activity of the different parts or portions to form a functional luciferase polypeptide. Such complementing polypeptides are used routinely in protein complementation assays, which are well known to persons skilled in the art.

The terms “peptide variant” and “polypeptide variant” and the like refer to polypeptides that are distinguished from a reference polypeptide by the addition, deletion or substitution of at least one amino acid residue. In certain embodiments, a polypeptide variant is distinguished from a reference polypeptide by one or more substitutions, which may be conservative or non-conservative. In certain embodiments, the polypeptide variant comprises conservative substitutions and, in this regard, it is well understood in the art that some amino acids may be changed to others with broadly similar properties without changing the nature of the activity of the polypeptide. Peptide and polypeptide variants also encompass polypeptides in which one or more amino acids have been added or deleted, or replaced with different amino acid residues.

By “primer” is meant an oligonucleotide which, when paired with a strand of DNA, is capable of initiating the synthesis of a primer extension product in the presence of a suitable polymerizing agent. The primer is preferably single-stranded for maximum efficiency in amplification but can alternatively be double-stranded. A primer must be sufficiently long to prime the synthesis of extension products in the presence of the polymerization agent. The length of the primer depends on many factors, including application, temperature to be employed, template reaction conditions, other reagents, and source of primers. For example, depending on the complexity of the target sequence, the oligonucleotide primer typically contains 15 to 35 or more nucleotide residues, although it can contain fewer nucleotide residues. Primers can be large polynucleotides, such as from about 200 nucleotide residues to several kilobases or more. Primers can be selected to be “substantially complementary” to the sequence on the template to which it is designed to hybridize and serve as a site for the initiation of synthesis. By “substantially complementary”, it is meant that the primer is sufficiently complementary to hybridize with a target polynucleotide. Preferably, the primer contains no mismatches with the template to which it is designed to hybridize but this is not essential. For example, non-complementary nucleotide residues can be attached to the 5′ end of the primer, with the remainder of the primer sequence being complementary to the template. Alternatively, non-complementary nucleotide residues or a stretch of non-complementary nucleotide residues can be interspersed into a primer, provided that the primer sequence has sufficient complementarity with the sequence of the template to hybridize therewith and thereby form a template for synthesis of the extension product of the primer.

“Probe” refers to a molecule that binds to a specific sequence or sub-sequence or other moiety of another molecule. Unless otherwise indicated, the term “probe” typically refers to a polynucleotide probe that binds to another polynucleotide, often called the “target polynucleotide”, through complementary base pairing. Probes can bind target polynucleotides lacking complete sequence complementarity with the probe, depending on the stringency of the hybridization conditions. Probes can be labeled directly or indirectly.

The term “recombinant polynucleotide” as used herein refers to a polynucleotide formed in vitro by the manipulation of nucleic acid into a form not normally found in nature. For example, the recombinant polynucleotide may be in the form of an expression vector. Generally, such expression vectors include transcriptional and translational regulatory nucleic acid operably linked to the nucleotide sequence.

By “recombinant polypeptide” is meant a polypeptide made using recombinant techniques, i.e., through the expression of a recombinant polynucleotide.

By “regulatory element” or “regulatory sequence” is meant nucleic acid sequences (e.g., DNA) necessary for expression of an operably linked coding sequence in a particular host cell. The regulatory sequences that are suitable for prokaryotic cells for example, include a promoter, and optionally a cis-acting sequence such as an operator sequence and a ribosome binding site. Control sequences that are suitable for eukaryotic cells include promoters, polyadenylation signals, transcriptional enhancers, translational enhancers, leader or trailing sequences that modulate mRNA stability, as well as targeting sequences that target a product encoded by a transcribed polynucleotide to an intracellular compartment within a cell or to the extracellular environment.

The term “sequence identity” as used herein refers to the extent that sequences are identical on a nucleotide-by-nucleotide basis or an amino acid-by-amino acid basis over a window of comparison. Thus, a “percentage of sequence identity” is calculated by comparing two optimally aligned sequences over the window of comparison, determining the number of positions at which the identical nucleic acid base (e.g., A, T, C, G, I, U) or the identical amino acid residue (e.g., Ala, Pro, Ser, Thr, Gly, Val, Leu, Ile, Phe, Tyr, Trp, Lys, Arg, His, Asp, Glu, Asn, Gln, Cys and Met) occurs in both sequences to yield the number of matched positions, dividing the number of matched positions by the total number of positions in the window of comparison (i.e., the window size), and multiplying the result by 100 to yield the percentage of sequence identity. The present invention contemplates the use in the methods and systems of the present invention of full-length luciferase polypeptides as well as their biologically active fragments. Typically, biologically active fragments of a full-length luciferase polypeptide may participate in an interaction, for example, an intra-molecular or an inter-molecular interaction. An inter-molecular interaction can be a specific binding interaction or an enzymatic interaction (e.g., the interaction can be transient and a covalent bond is formed or broken). Biologically active fragments of a full-length luciferase polypeptide include peptides comprising amino acid sequences sufficiently similar to or derived from the amino acid sequences of a (putative) full-length luciferase polypeptide. Typically, biologically active fragments comprise a domain or motif with at least one activity selected from: luminescence, flash signal, glow signal, stability of glow signal and effective temperature range, including elevated optimal temperature range, of flash signal or glow signal. A biologically active fragment of a full-length luciferase polypeptide can be a polypeptide which is, for example, 40, 50, 55, 60, 65, 70, 75, 80, 85, 90, 95, 100, 105, 110, 115, 120, 125, 130, 135, 140, 145, 150, 155, 160, 165, 170, 175, 180, 185, 190, 195, 200 or more amino acid residues in length. Suitably, the biologically-active fragment has no less than about 1%, 10%, 25% 50% of an activity of the full-length polypeptide from which it is derived.

“Similarity” refers to the percentage number of amino acids that are identical or constitute conservative substitutions as defined in Tables 2 and 3 infra. Similarity may be determined using sequence comparison programs such as GAP (Deveraux et al. 1984, Nucleic Acids Research 12: 387-395). In this way, sequences of a similar or substantially different length to those cited herein might be compared by insertion of gaps into the alignment, such gaps being determined, for example, by the comparison algorithm used by GAP.

Terms used to describe sequence relationships between two or more polynucleotides or polypeptides include “reference sequence,” “comparison window”, “sequence identity,” “percentage of sequence identity” and “substantial identity”. A “reference sequence” is at least 12 but frequently 15 to 18 and often at least 25 monomer units, inclusive of nucleotides and amino acid residues, in length. Because two polynucleotides may each comprise (1) a sequence (i.e., only a portion of the complete polynucleotide sequence) that is similar between the two polynucleotides, and (2) a sequence that is divergent between the two polynucleotides, sequence comparisons between two (or more) polynucleotides are typically performed by comparing sequences of the two polynucleotides over a “comparison window” to identify and compare local regions of sequence similarity. A “comparison window” refers to a conceptual segment of at least 6 contiguous positions, usually about 50 to about 100, more usually about 100 to about 150 in which a sequence is compared to a reference sequence of the same number of contiguous positions after the two sequences are optimally aligned. The comparison window may comprise additions or deletions (i.e., gaps) of about 20% or less as compared to the reference sequence (which does not comprise additions or deletions) for optimal alignment of the two sequences. Optimal alignment of sequences for aligning a comparison window may be conducted by computerized implementations of algorithms (GAP, BESTFIT, FASTA, and TFASTA in the Wisconsin Genetics Software Package Release 7.0, Genetics Computer Group, 575 Science Drive Madison, Wis., USA) or by inspection and the best alignment (i.e., resulting in the highest percentage homology over the comparison window) generated by any of the various methods selected. Reference also may be made to the BLAST family of programs as for example disclosed by Altschul et al., 1997, Nucl. Acids Res. 25:3389. A detailed discussion of sequence analysis can be found in Unit 19.3 of Ausubel et al., “Current Protocols in Molecular Biology”, John Wiley & Sons Inc, 1994-1998, Chapter 15.

“Stringency” as used herein, refers to the temperature and ionic strength conditions, and presence or absence of certain organic solvents, during hybridization and washing procedures. The higher the stringency, the higher will be the degree of complementarity between immobilized target nucleotide sequences and the labeled probe polynucleotide sequences that remain hybridized to the target after washing. The term “high stringency” refers to temperature and ionic conditions under which only nucleotide sequences having a high frequency of complementary bases will hybridize. The stringency required is nucleotide sequence dependent and depends upon the various components present during hybridization. Generally, stringent conditions are selected to be about 10 to 20° C. lower than the thermal melting point (T_(m)) for the specific sequence at a defined ionic strength and pH. The T_(m) is the temperature (under defined ionic strength and pH) at which 50% of a target sequence hybridizes to a complementary probe.

The term “synonymous codon” as used herein refers to a codon having a different nucleotide sequence than another codon but encoding the same amino acid as that other codon.

By “vector” is meant a polynucleotide molecule, suitably a DNA molecule derived, for example, from a plasmid, bacteriophage, yeast or virus, into which a polynucleotide can be inserted or cloned. A vector may contain one or more unique restriction sites and can be capable of autonomous replication in a defined host cell including a target cell or tissue or a progenitor cell or tissue thereof, or be integrable with the genome of the defined host such that the cloned sequence is reproducible. Accordingly, the vector can be an autonomously replicating vector, i.e., a vector that exists as an extra-chromosomal entity, the replication of which is independent of chromosomal replication, e.g., a linear or closed circular plasmid, an extra-chromosomal element, a mini-chromosome, or an artificial chromosome. The vector can contain any means for assuring self-replication. Alternatively, the vector can be one which, when introduced into the host cell, is integrated into the genome and replicated together with the chromosome(s) into which it has been integrated. A vector system can comprise a single vector or plasmid, two or more vectors or plasmids, which together contain the total DNA to be introduced into the genome of the host cell, or a transposon. The choice of the vector will typically depend on the compatibility of the vector with the host cell into which the vector is to be introduced. In the present case, the vector is preferably a viral or viral-derived vector, which is operably functional in animal and preferably mammalian cells. Such vector may be derived from a poxvirus, an adenovirus or yeast. The vector can also include a selection marker such as an antibiotic resistance gene that can be used for selection of suitable transformants. Examples of such resistance genes are known to those of skill in the art and include the nptII gene that confers resistance to the antibiotics kanamycin and G418 (Geneticin®) and the hph gene that confers resistance to the antibiotic hygromycin B.

The terms “wild-type” and “naturally occurring” are used interchangeably to refer to a gene or gene product that has the characteristics of that gene or gene product when isolated from a naturally occurring source. A wild type gene or gene product (e.g., a polypeptide) is that which is most frequently observed in a population and is thus arbitrarily designed the “normal” or “wild-type” form of the gene.

2. Abbreviations

The following abbreviations are used throughout the application:

nt=nucleotide

nts=nucleotides

aa=amino acid(s)

kb=kilobase(s) or kilobase pair(s)

kDa=kilodalton(s)

d=day

h=hour

s=seconds

w.t.=wild type

3. Modified Luciferases

The present invention is based in part on the determination that certain structural elements of luciferases, including luciferases within the copepod luciferase family are important for modulating luciferase function and certain modification of those features can lead to significant improvements to the light-emitting characteristics of luciferases. In particular, the present inventors have found that: (1) an L at position 85 or 98 (relative to the consensus numbering shown in FIG. 1); (2) a truncation, in whole or in part, of a region spanning downstream of the signal peptide sequence and upstream of about residue 85; (3) at least one 4-residue motif, which includes a conserved cysteine (e.g., C₅, C₆, C₉ and C₁₀); (4) at least one 2-residue motif, which includes a conserved cysteine (e.g., C₅, C₆, C₉ and C₁₀); and/or (5)); at least one 3-residue motif, which includes a conserved cysteine (e.g., C₅, C₆, C₉ and C₁₀) can significantly improve one or more light-emitting characteristics or properties of luciferases, including copepod luciferases. Accordingly, the present invention provides methods for improving at least one light-emitting characteristic of a luciferase, including luminescence, flash signal intensity, glow signal intensity, glow signal stability and effective temperature range, including elevated temperature range, of luciferase function. These methods generally comprise preparing an amino acid sequence that is distinguished from a reference luciferase polypeptide sequence by at least one modification selected from:

i) substitution of an amino acid residue at position 85 (relative to the consensus numbering shown in FIG. 1) with L or modified form thereof;

ii) deletion in whole, or in part, of an amino acid sequence of the reference luciferase polypeptide, wherein the amino acid sequence spans downstream of the signal peptide sequence and upstream of the amino acid residue at position 85 (relative to the consensus numbering shown in FIG. 1), suitably upstream of about residue 84, 83, 82, 81, 80, 79, 78, 77, 76, 75, 74, 73, 72, 71 (relative to the consensus numbering shown in FIG. 1);

iii) substitution of one or more amino acid residues adjacent to at least one conserved cysteine (e.g., at any 1, 2, 3 4, 5, 6, 7, 8 or 9 amino acid residues selected from the amino acid residues at positions 143, 145, 146, 193, 195, 196, 210, 212 and 213) of the reference luciferase polypeptide to produce an amino acid subsequence represented by formula XI: BCΩD  (XI) wherein:

B is selected from basic amino acid residues (e.g., R or K, or modified form thereof);

C is a conserved cysteine, or modified form thereof, wherein the conserved cysteine in some embodiments is selected from C₅, C₆ and C₉;

Ω is selected from small amino acid residues (e.g., A, S or T, or modified form thereof) or acidic amino acid residues (e.g., E, or modified form thereof); and

D is aspartate or modified form thereof;

iv) substitution of one or more amino acid residues adjacent to conserved cysteine C₁₀ of the reference luciferase polypeptide to produce an amino acid subsequence as represented by the sequence XRCAS, wherein X is suitably other than D or P and is suitably selected from R or K or modified form thereof, more suitably H or modified form thereof, even more suitably T, A, S or N or modified form thereof, preferably Q or modified form thereof, more preferably G or modified form thereof, even more preferably E or modified form thereof;

v) substitution of one or more amino acid residues adjacent to at least one conserved cysteine selected from C₅, C₆, C₉ and C₁₀ of the reference luciferase polypeptide, wherein the substitution at an individual conserved cysteine produces an amino acid sequence represented by formula XX: BC  (XX) wherein:

B is selected from basic amino acid residues (e.g., R or K, or modified form thereof); and

C is a conserved cysteine, or modified form thereof, selected from C₅, C₆, C₉ and C₁₀, or in specific embodiments selected from C₆ and C₉,

wherein the substitution at an individual conserved cysteine, in specific embodiments, produces an amino acid sequence represented by formula XXI: BCΩ  (XXI) wherein:

B is selected from basic amino acid residues (e.g., R or K, or modified form thereof);

C is a conserved cysteine, or modified form thereof, selected from C₅, C₆, C₉ and C₁₀; and

Ω is selected from small amino acid residues (e.g., A, S or T, or modified form thereof) or acidic amino acid residues (e.g., E, or modified form thereof),

wherein the amino acid sequence represented by formula XXI is suitably selected from BCA or BCE,

wherein the substitution at an individual conserved cysteine, in specific embodiments, produces an amino acid sequence represented by formula V: BCΩΩ  (V) wherein:

B is selected from basic amino acid residues (e.g., R or K, or modified form thereof);

C is a conserved cysteine, or modified form thereof, selected from C₅, C₆ C₉ and C₁₀; and

Ω is selected from small amino acid residues (e.g., A, S or T, or modified form thereof) or acidic amino acid residues (e.g., E, or modified form thereof),

wherein the amino acid sequence represented by formula V is selected, for example, from BCAD (e.g., RCAD, KCAD), BCAT (e.g., RCAT, KCAT), BCED (e.g., RCED, KCED), BCSD (e.g., RCSD, KCSD), BCTD (e.g., RCTD, KCTD), and BCAS (e.g., RCAS, KCAS),

wherein the substitution adjacent to conserved cysteines C₅ or C₆ results for example in an amino acid sequence selected from RCAD, KCAD, RCED, KCED, RCSD, KCSD, RCTD and KCTD,

wherein the substitution adjacent to C₉ results for example in an amino acid sequence consisting of KCSD;

wherein the substitutions adjacent to one or both conserved cysteines selected from C₆ and C₁₀, in specific embodiments, produces an amino acid sequence represented by formula XXIII: EBC  (XXIII) wherein:

B is selected from basic amino acid residues (e.g., R or K, or modified form thereof); and

C is a conserved cysteine, or modified form thereof, selected from C₆ and C₉,

wherein the substitution adjacent to conserved cysteine C₁₀, in specific embodiments, produces an amino acid sequence represented by formula XXIV: GBC  (XXIV) wherein:

B is selected from basic amino acid residues (e.g., R or K, or modified form thereof); and

C is conserved cysteine C₁₀, or modified form thereof,

wherein the substitution adjacent to one or both conserved cysteines selected from C₅ and C₁₀, in specific embodiments, produces an amino acid sequence represented by formula XXV: GBCΩ  (XXV) wherein:

B is selected from basic amino acid residues (e.g., R or K, or modified form thereof);

C is a conserved cysteine, or modified form thereof, selected from C₅ and C₁₀; and

Ω is selected from small amino acid residues (e.g., A, S or T, or modified form thereof) or acidic amino acid residues (e.g., E, or modified form thereof),

wherein GBCΩ is represented, for example, by GBCA,

wherein the substitution adjacent to one or both conserved cysteines selected from C₅ and C₁₀, in specific embodiments, produces an amino acid sequence represented by formula XXVI: GBCΩΩ  (XXVI) wherein:

B is selected from basic amino acid residues (e.g., R or K, or modified form thereof);

C is a conserved cysteine, or modified form thereof, selected from C₅ and C₁₀; and

Ω is selected from small amino acid residues (e.g., A, S or T, or modified form thereof) or acidic amino acid residues (e.g., E, or modified form thereof),

wherein GBCΩΩ is represented for example by GBCAT.

or a combination of the above modifications, as for example illustrated in Table A infra.

In some embodiments, the modification includes substitution of one or more residues adjacent to conserved cysteine C₅ of the reference luciferase polypeptide to produce an amino acid subsequence selected from RCAD, KCAD, RCED, KCED, RCSD, KCSD, RCTD, KCTD, RCAT and RCAS.

In some embodiments, the modification includes substitution of one or more residues adjacent to conserved cysteine C₆ of the reference luciferase polypeptide to produce an amino acid subsequence selected from RCAD, KCAD, RCED, KCED, RCSD, KCSD, RCTD and KCTD.

In some embodiments, the modification includes substitution of one or more residues adjacent to conserved cysteine C₉ of the reference luciferase polypeptide to produce an amino acid subsequence KCSD.

In some embodiments, the modification may further include substitution of one or more residues adjacent to conserved cysteine C₁₀ of the reference luciferase polypeptide to produce an amino acid subsequence as represented by the sequence XRCAS, wherein X is other than D or P and is suitably selected from R or K or modified form thereof, more suitably H or modified form thereof, even more suitably T, A, S or N or modified form thereof, preferably Q or modified form thereof, more preferably G or modified form thereof, even more preferably E or modified form thereof.

Representative reference luciferase polypeptides include those comprising the amino acid sequences as set forth in SEQ ID NO: 2, 4, 6, 8, 10, 166, 168, 170, 172, 790, 792, 794, 796, 798, 800, 802, 804, 806, 808, 810, 812 and 814.

The present invention also contemplates modifying other reference luciferases including synthetic or artificially created luciferases as well as naturally occurring luciferases from luciferase-producing organisms to include at least 1, 2, 3, 4, 5, 6 or more modifications as described herein. In specific embodiments, a reference luciferase is obtained from the sub-class Copepoda, more suitably from luminous genera of a Copepoda family selected from Metridinidae, Lucicutiidae, Heterorhabdidae, Augaptilidae, Megacalanidae Oncaeidae, Aegisthidae, Aetideidae and Pontellidae. Non-limiting examples of luminous organisms from the Metridinidae family include: Metridinidae species such as M. lucens, M. longa, M. princeps, M. norvegica, M. pacifica, M. gerlachei and M. macrura; Pleuromamma species such as P. xiphias, P. adbominalis, P. robusta, P. gracilis, P. piseki, P. borealis, P. indica and P. quadrangulata; and Gaussia species such as G. princeps. Representative examples of luminous organisms from the Lucicutiidae family include: Lucicutiidae species such as L. flavicornis, L. gemina, L. ovalis, L. wolfendeni, L. sarsi, L. aurita, L. clause, L. grandis and L. magna. Illustrative examples of luminous organisms from the Heterorhabdidae family include: Heterorhabdus species such as H. papilliger, H. norvegicus, H. robustus and H. spinifrons; Hemirhabdus species such as Hemirhabdus grimaldii and H. latus; Heterostylites species such as Heterostylites longicornis; and Desseta species such as Dessetapalumbio. Non-limiting examples of luminous organisms from the Augaptilidae family include: Euaugaptilus species such as E. magnus, E. laticeps, E. perodiosus, E. filiger, E. squamatus, E. nodifrons, E. truncates/vicinus, E. rectus, E. grandicornis, E. farrani and E. bullifer; Centraugaptilus species such as C. horridus, C. rattrayi and C. cucullatus; Haptoptilus species such as H. longicirrus; Heteroptilus species such as H. acutilobus; Pachyptilus species such as P. eurygnathus. Representative examples of luminous organisms from the Megacalanidae family include: Megacalanus species such as M. princeps. Illustrative examples of luminous organisms from the Oncaeidae family include: Oncaea species such as O. conifer. Non-limiting examples of luminous organisms from the Aegisthidae family include: Aegisthus species such as Aegisthusmucronatus. Representative examples of luminous organisms from the Aetideidae family include: Chiridius species such as C. poppei. Illustrative examples of luminous organisms from the Pontellidae family include: Pontella species such as P. mimocerami.

In some embodiments, a luciferase polypeptide of the present invention has any one or more of the following activities: (i) enhanced luminescence, (ii) stronger flash signal intensity, (iii) enhanced glow signal intensity, (iv) enhanced stability of glow signal and (v) enhanced effective temperature range, including elevated optimal temperature range, for operation of the enzyme as compared to a reference luciferase polypeptide lacking the amino acid sequence modifications.

The present invention contemplates full-length luciferase polypeptides as well as their biologically active fragments. Typically, biologically active fragments of a full-length luciferase may participate in an interaction, for example, an intramolecular or an inter-molecular interaction and/or may display any one or more of activities (i) to (v) noted above. Such biologically active fragments include peptides comprising amino acid sequences sufficiently similar to or derived from the amino acid sequences of a (putative) full-length luciferase polypeptide, for example, the amino acid sequences shown in SEQ ID NO: 46, 48, 50, 52, 82, 136, 138, 140, 142, 144, 146, 148, 150, 152, 154, 156, 158, 160 or 162 (i.e., those lacking a signal peptide and secretion-enhancing sequence and directing the polypeptide to an intracellular location), which include less amino acids than a putatively full-length luciferase polypeptide, and which exhibit at least one activity of that polypeptide (e.g., any one or more of activities (i) to (v) defined above. Typically, biologically active fragments will comprise a domain with at least one activity of a putatively full-length luciferase polypeptide and may include an about 140-residue domain beginning at about residue 85 (relative to the consensus numbering shown in FIG. 1) and comprising each of the conserved cysteines (C₁-C₁₀), as shown for example in FIG. 1. In some embodiments, biologically active fragments will comprise an hydrophobic amino acid residue (e.g., an aliphatic amino acid residue L or M or modified form thereof) at position 85, P or modified form thereof at position 86, G or modified form thereof at position 87, K or modified form thereof at position 88, K or modified form thereof at position 89, an hydrophobic amino acid residue (e.g., aliphatic amino acid residues such as L or M, or modified form thereof) at position 90, P or modified form thereof at position 91, an hydrophobic amino acid residue (e.g., aliphatic amino acid residues such as L, or modified form thereof) or a basic amino acid residue (e.g., K, or modified form thereof) at position 92, an hydrophobic amino acid residue (e.g., aliphatic amino acid residues such as A, or modified form thereof) or an acidic amino acid residue (e.g., E, or modified form thereof) at position 93, V or modified form thereof at position 94, an hydrophobic amino acid residue (e.g., aliphatic amino acid residues such as I or L, or modified form thereof) or a small amino acid residue (e.g., P, or modified form thereof) at position 95, an hydrophobic amino acid residue (e.g., aliphatic amino acid residues such as I, M or V, or modified form thereof) or a basic amino acid residue (e.g., K, or modified form thereof) at position 96, E or modified form thereof at position 97, an hydrophobic amino acid residue (e.g., aliphatic amino acid residues such as M, I or L, or modified form thereof) at position 98, E or modified form thereof at position 99, A or modified form thereof at position 100, N or modified form thereof at position 101, A or modified form thereof at position 102, a basic amino acid residue (e.g., K or R, or modified form thereof) or an hydrophobic amino acid residue (e.g., aromatic amino acid residues such as F, or modified form thereof) at position 103, a basic amino acid residue (e.g., K or R, or modified form thereof) at position 104, A or modified form thereof at position 105, G or modified form thereof at position 106, C₁ or modified form thereof at position 107, a small amino acid residue (e.g., T, or modified form thereof) or a basic amino acid residue (e.g., H, or modified form thereof) at position 108, R or modified form thereof at position 109, G or modified form thereof at position 110, C₂ or modified form thereof at position 111, L or modified form thereof at position 112, an hydrophobic amino acid residue (e.g., aliphatic amino acid residues such as I or V, or modified form thereof) at position 113, C₃ or modified form thereof at position 114, L or modified form thereof at position 115, S or modified form thereof at position 116, a basic amino acid residue (e.g., H or K, or modified form thereof) at position 117, I or modified form thereof at position 118, K or modified form thereof at position 119, C₄ or modified form thereof at position 120, T or modified form thereof at position 121, a small amino acid residue (e.g., P or A, or modified form thereof) or a basic amino acid residue (e.g., K, or modified form thereof) at position 122, a basic amino acid residue (e.g., K, or modified form thereof) or a neutral/polar amino acid residue (e.g., Q, or modified form thereof) at position 123, M or modified form thereof at position 124, a basic amino acid residue (e.g., K, or modified form thereof) or a neutral/polar amino acid residue (e.g., Q, or modified form thereof) at position 125, any amino acid residue (e.g., basic amino acid residues such as K, or modified form thereof, hydrophobic amino acid residues including aliphatic amino acid residues such as V, or modified form thereof, or neutral/polar amino acid residues such as Q, or modified form thereof) at position 126, an hydrophobic amino acid residue (e.g., aromatic amino acid residues such as F or Y, or modified form thereof) at position 127, I or modified form thereof at position 128, P or modified form thereof at position 129, G or modified form thereof at position 130, a basic amino acid residue (e.g., R or K, or modified form thereof) at position 131, C₅ or modified form thereof at position 132, a basic amino acid residue (e.g., H, or modified form thereof) or a small amino acid residue (e.g., A, or modified form thereof) at position 133, an acidic amino acid residue (e.g., D, or modified form thereof) or a small amino acid residue (e.g., T or S, or modified form thereof) at position 134, Y or modified form thereof at position 135, an acidic amino acid residue (e.g., E, or modified form thereof) or a small amino acid residue (e.g., G or A, or modified form thereof) at position 136, G or modified form thereof at position 137, D or modified form thereof at position 138, K or modified form thereof at position 139, an acidic amino acid residue (e.g., D or E, or modified form thereof) or a basic amino acid residue (e.g., K, or modified form thereof) at position 140, a small amino acid residue (e.g., S or T, or modified form thereof) at position 141, a small amino acid residue (e.g., G or A, or modified form thereof) at position 142, Q or modified form thereof at position 143, a small amino acid residue (e.g., G or A, or modified form thereof) at position 144, G or modified form thereof at position 145, I or modified form thereof at position 146, a small amino acid residue (e.g., G or A, or modified form thereof) or an hydrophobic amino acid residue (e.g., aliphatic amino acid residues such as V, or modified form thereof) at position 147, either no amino acid residue or a small amino acid residue (e.g., G, or modified form thereof) at position 148, an acidic amino acid residue (e.g., E, or modified form thereof) or small amino acid residues (e.g., G, or modified form thereof) at position 149, a small amino acid residue (e.g., A, or modified form thereof) or an acidic amino acid residue (e.g., E, or modified form thereof) at position 150, I or modified form thereof at position 151, V or modified form thereof at position 152, D or modified form thereof at position 153, an hydrophobic amino acid residue (e.g., aliphatic amino acid residues such as I or M, or modified form thereof) at position 154, P or modified form thereof at position 155, E or modified form thereof at position 156, I or modified form thereof at position 157, a small amino acid residue (e.g., P, S or A, or modified form thereof) at position 158, G or modified form thereof at position 159, F or modified form thereof at position 160, K or modified form thereof at position 161, an acidic amino acid residue (e.g., D or E, or modified form thereof) at position 162, an hydrophobic amino acid residue (e.g., aliphatic amino acid residues such as L or M, or modified form thereof) or a basic amino acid residue (e.g., K, or modified form thereof) at position 163, a charged amino acid residue (e.g., acidic amino acid residues such as E, or modified form thereof, or basic amino acid residues such as K, or modified form thereof) or a small amino acid residue (e.g., G or A, or modified form thereof) at position 164, P or modified form thereof at position 165, an hydrophobic amino acid residue (e.g., aliphatic amino acid residues such as M or L, or modified form thereof) at position 166, an acidic amino acid residue (e.g., E or D, or modified form thereof) at position 167, Q or modified form thereof at position 168, F or modified form thereof at position 169, I or modified form thereof at position 170, A or modified form thereof at position 171, Q or modified form thereof at position 172, V or modified form thereof at position 173, an acidic amino acid residue (e.g., D or E, or modified form thereof) at position 174, an hydrophobic amino acid residue (e.g., aliphatic amino acid residues such as L, or modified form thereof) or a basic amino acid residue (e.g., R, or modified form thereof) at position 175, C₆ or modified form thereof at position 176, any amino acid residue (e.g., hydrophobic amino acid residues including aliphatic amino acid residues such as V, or modified form thereof, or small amino acid residues such as A or T, or modified form thereof, or acidic amino acid residues such as E, or modified form thereof) at position 177, an acidic amino acid residue (e.g., D, or modified form thereof) or a small amino acid residue (e.g., S or T, or modified form thereof) at position 178, C₇ or modified form thereof at position 179, a small amino acid residue (e.g., T, or modified form thereof) or a neutral/polar amino acid residue (e.g., N, or modified form thereof) at position 180, T or modified form thereof at position 181, G or modified form thereof at position 182, C₈ or modified form thereof at position 183, L or modified form thereof at position 184, K or modified form thereof at position 185, G or modified form thereof at position 186, L or modified form thereof at position 187, A or modified form thereof at position 188, N or modified form thereof at position 189, V or modified form thereof at position 190, a basic amino acid residues (e.g., H or K, or modified form thereof) or neutral/polar amino acid residue (e.g., Q, or modified form thereof) at position 191, C₉ or modified form thereof at position 192, S or modified form thereof at position 193, an acidic amino acid residue (e.g., D or E, or modified form thereof) or a small amino acid residue (e.g., A, or modified form thereof) at position 194, L or modified form thereof at position 195, L or modified form thereof at position 196, K or modified form thereof at position 197, K or modified form thereof at position 198, W or modified form thereof at position 199, L or modified form thereof at position 200, P or modified form thereof at position 201, any amino acid residue (e.g., small amino acid residues such as G, T, S or A, or modified form thereof, or neutral/polar amino acid residues such as Q or N, or modified form thereof, or acidic amino acid residues such as D, or modified form thereof) at position 202, a basic amino acid residue (e.g., R or K, or modified form thereof) at position 203, C₁₀ or modified form thereof at position 204, a small amino acid residue (e.g., A, or modified form thereof) or a basic amino acid residue (e.g., K, or modified form thereof) at position 205, a small amino acid residue (e.g., S or T, or modified form thereof) at position 206, F or modified form thereof at position 207, A or modified form thereof at position 208, an acidic amino acid residue (e.g., D, or modified form thereof) or a small amino acid residue (e.g., S, or modified form thereof) at position 209, K or modified form thereof at position 210, I or modified form thereof at position 211, Q or modified form thereof at position 212, a small amino acid residue (e.g., G or S, or modified form thereof) or a basic amino acid residue (e.g., K, or modified form thereof) at position 213, a neutral/polar amino acid residue (e.g., Q, or modified form thereof) or an acidic amino acid residue (e.g., E, or modified form thereof) at position 214, an hydrophobic amino acid residues (e.g., aliphatic amino acid residues such as V, or modified form thereof) or a small amino acid residue (e.g., A, or modified form thereof) at position 215, a charged amino acid residue (e.g., acidic amino acid residues such as D, or modified form thereof, or basic amino acid residues such as H, or modified form thereof) at position 216, any amino acid residue (e.g., basic amino acid residues such as K, or modified form thereof, or neutral/polar amino acid residues such as N, or modified form thereof, or small amino acid residues such as T, or modified form thereof) at position 217, I or modified form thereof at position 218, K or modified form thereof at position 219, G or modified form thereof at position 220, a small amino acid residue (e.g., A, or modified form thereof) or an hydrophobic amino acid residue (e.g., aliphatic amino acid residues such as L or M, or modified form thereof) at position 221, a small amino acid residue (e.g., G or A, or modified form thereof) at position 222, G or modified form thereof at position 223 and D or modified form thereof at position 224, relative to the consensus numbering of FIG. 1.

A biologically active fragment of a full-length luciferase polypeptide can be a polypeptide which is, for example, 40, 50, 55, 60, 65, 70, 75, 80, 85, 90, 95, 100, 105, 110, 115, 120, 125, 130, 135, 140, 145, 150, 155, 160, 165, 170, 175, 180, 185, 190, 195, 200 or more amino acid residues in length. Suitably, the biologically-active fragment has no less than about 1%, 10%, 25% 50% of an activity of the full-length polypeptide from which it is derived.

The present invention contemplates both secreted and non-secreted or intracellular luciferases. Secreted luciferases will generally comprise a signal peptide, for example comprising from about residue 1 to about residues 28, relative to the consensus numbering shown in FIG. 1. They will also generally include a secretion-enhancing sequence that extends downstream of the signal peptide and upstream of about position 85, suitably upstream of about position 84, 83, 82, 81, 80, 79, 78, 77, 76, 75, 74, 73, 72, 71. Illustrative non-secreted or intracellular luciferases generally exclude a functional signal peptide and/or functional secretion-enhancing sequence.

The present invention also contemplates luciferases that are variants of wild-type or naturally-occurring luciferases or their fragments or synthetic or artificially created luciferases or their fragments, which variants include one or more of the luminescence-enhancing modification defined herein. Such “variant” polypeptides include proteins derived from the native protein by deletion (so-called truncation) or addition of one or more amino acids to the N-terminal and/or C-terminal end of the native protein; deletion or addition of one or more amino acids at one or more sites in the native protein; or substitution of one or more amino acids at one or more sites in the native protein. Non-limiting examples of such variant luciferases include processed forms of a full-length or precursor luciferase, including but not limited to polypeptides in which the signal peptide domain (from about residue 1 to about residue 17 or 18, relative to the consensus numbering shown in FIG. 1) has been removed from the precursor form.

Variant proteins encompassed by the present invention are biologically active, that is, they continue to possess the desired biological activity of the native protein. Such variants may result from, for example, genetic polymorphism or from human manipulation.

A luciferase polypeptide may be altered in various ways including amino acid substitutions, deletions, truncations, and insertions. Methods for such manipulations are generally known in the art. For example, amino acid sequence variants of luciferase polypeptides can be prepared by mutations in the DNA. Methods for mutagenesis and nucleotide sequence alterations are well known in the art. See, for example, Kunkel (1985, Proc. Natl. Acad. Sci. USA. 82: 488-492), Kunkel et al., (1987, Methods in Enzymol, 154: 367-382), U.S. Pat. No. 4,873,192, Watson, J. D. et al., (“Molecular Biology of the Gene”, Fourth Edition, Benjamin/Cummings, Menlo Park, Calif., 1987) and the references cited therein. Guidance as to appropriate amino acid substitutions that do not affect biological activity of the protein of interest may be found in the model of Dayhoff et al., (1978) Atlas of Protein Sequence and Structure (Natl. Biomed. Res. Found., Washington, D.C.). Methods for screening gene products of combinatorial libraries made by point mutations or truncation, and for screening cDNA libraries for gene products having a selected property are known in the art. Such methods are adaptable for rapid screening of the gene libraries generated by combinatorial mutagenesis of luciferase polypeptides. Recursive ensemble mutagenesis (REM), a technique that enhances the frequency of functional mutants in the libraries, can be used in combination with the screening assays to identify luciferase variants (Arkin and Yourvan (1992) Proc. Natl. Acad. Sci. USA 89: 7811-7815; Delgrave et al., (1993) Protein Engineering, 6: 327-331). Conservative substitutions, such as exchanging one amino acid with another having similar properties, may be desirable as discussed in more detail below.

Variant luciferase polypeptides may contain conservative amino acid substitutions at various locations along their sequence, as compared to a parent (e.g., naturally-occurring or reference) luciferase amino acid sequence. A “conservative amino acid substitution” is one in which the amino acid residue is replaced with an amino acid residue having a similar side chain. Families of amino acid residues having similar side chains have been defined in the art, which can be generally sub-classified as follows:

Acidic: The residue has a negative charge due to loss of H ion at physiological pH and the residue is attracted by aqueous solution so as to seek the surface positions in the conformation of a peptide in which it is contained when the peptide is in aqueous medium at physiological pH. Amino acids having an acidic side chain include glutamic acid and aspartic acid.

Basic: The residue has a positive charge due to association with H ion at physiological pH or within one or two pH units thereof (e.g., histidine) and the residue is attracted by aqueous solution so as to seek the surface positions in the conformation of a peptide in which it is contained when the peptide is in aqueous medium at physiological pH. Amino acids having a basic side chain include arginine, lysine and histidine.

Charged: The residues are charged at physiological pH and, therefore, include amino acids having acidic or basic side chains (i.e., glutamic acid, aspartic acid, arginine, lysine and histidine).

Hydrophobic: The residues are not charged at physiological pH and the residue is repelled by aqueous solution so as to seek the inner positions in the conformation of a peptide in which it is contained when the peptide is in aqueous medium. Amino acids having a hydrophobic side chain include tyrosine, valine, isoleucine, leucine, methionine, phenylalanine and tryptophan.

Neutral/polar: The residues are not charged at physiological pH, but the residue is not sufficiently repelled by aqueous solutions so that it would seek inner positions in the conformation of a peptide in which it is contained when the peptide is in aqueous medium. Amino acids having a neutral/polar side chain include asparagine, glutamine, cysteine, histidine, serine and threonine.

This description also characterizes certain amino acids as “small” since their side chains are not sufficiently large, even if polar groups are lacking, to confer hydrophobicity. With the exception of proline, “small” amino acids are those with four carbons or less when at least one polar group is on the side chain and three carbons or less when not. Amino acids having a small side chain include glycine, serine, alanine and threonine. The gene-encoded secondary amino acid proline is a special case due to its known effects on the secondary conformation of peptide chains. The structure of proline differs from all the other naturally-occurring amino acids in that its side chain is bonded to the nitrogen of the α-amino group, as well as the α-carbon. Several amino acid similarity matrices (e.g., PAM120 matrix and PAM250 matrix as disclosed for example by Dayhoff et al., (1978), A model of evolutionary change in proteins. Matrices for determining distance relationships In M. O. Dayhoff, (ed.), Atlas of protein sequence and structure, Vol. 5, pp. 345-358, National Biomedical Research Foundation, Washington D.C.; and by Gonnet et al., (1992, Science, 256(5062): 14430-1445), however, include proline in the same group as glycine, serine, alanine and threonine. Accordingly, for the purposes of the present invention, proline is classified as a “small” amino acid.

The degree of attraction or repulsion required for classification as polar or non-polar is arbitrary and, therefore, amino acids specifically contemplated by the invention have been classified as one or the other. Most amino acids not specifically named can be classified on the basis of known behavior.

Amino acid residues can be further sub-classified as cyclic or non-cyclic, and aromatic or non-aromatic, self-explanatory classifications with respect to the side-chain substituent groups of the residues, and as small or large. The residue is considered small if it contains a total of four carbon atoms or less, inclusive of the carboxyl carbon, provided an additional polar substituent is present; three or less if not. Small residues are, of course, always non-aromatic. Dependent on their structural properties, amino acid residues may fall in two or more classes. For the naturally-occurring protein amino acids, sub-classification according to this scheme is presented in Table 1.

TABLE 1 AMINO ACID SUB-CLASSIFICATION Sub-classes Amino acids Acidic Aspartic acid, Glutamic acid Basic Noncyclic: Arginine, Lysine; Cyclic: Histidine Charged Aspartic acid, Glutamic acid, Arginine, Lysine, Histidine Small Glycine, Serine, Alanine, Threonine, Proline Polar/neutral Asparagine, Histidine, Glutamine, Cysteine, Serine, Threonine Polar/large Asparagine, Glutamine Hydrophobic Tyrosine, Valine, Isoleucine, Leucine, Methionine, Phenylalanine, Tryptophan Aromatic Tryptophan, Tyrosine, Phenylalanine Residues that influence Glycine and Proline chain orientation

Conservative amino acid substitution also includes groupings based on side chains. For example, a group of amino acids having aliphatic side chains is glycine, alanine, valine, leucine, and isoleucine; a group of amino acids having aliphatic-hydroxyl side chains is serine and threonine; a group of amino acids having amide-containing side chains is asparagine and glutamine; a group of amino acids having aromatic side chains is phenylalanine, tyrosine, and tryptophan; a group of amino acids having basic side chains is lysine, arginine, and histidine; and a group of amino acids having sulfur-containing side chains is cysteine and methionine. For example, it is reasonable to expect that replacement of a leucine with an isoleucine or valine, an aspartate with a glutamate, a threonine with a serine, or a similar replacement of an amino acid with a structurally related amino acid will not have a major effect on the properties of the resulting variant polypeptide. Whether an amino acid change results in a functional luciferase peptide polypeptide can readily be determined by assaying its activity. Conservative substitutions are shown in Table 2 under the heading of exemplary and preferred substitutions. Amino acid substitutions falling within the scope of the invention, are, in general, accomplished by selecting substitutions that do not differ significantly in their effect on maintaining (a) the structure of the peptide backbone in the area of the substitution, (b) the charge or hydrophobicity of the molecule at the target site, or (c) the bulk of the side chain. After the substitutions are introduced, the variants are screened for biological activity.

TABLE 2 EXEMPLARY AND PREFERRED AMINO ACID SUBSTITUTIONS Original Residue Exemplary Substitutions Preferred Substitutions Ala Val, Leu, Ile Val Arg Lys, Gln, Asn Lys Asn Gln, His, Lys, Arg Gln Asp Glu Glu Cys Ser Ser Gln Asn, His, Lys, Asn Glu Asp, Lys Asp Gly Pro Pro His Asn, Gln, Lys, Arg Arg Ile Leu, Val, Met, Ala, Phe, Leu Norleu Leu Norleu, Ile, Val, Met, Ala, Phe Ile Lys Arg, Gln, Asn Arg Met Leu, Ile, Phe Leu Phe Leu, Val, Ile, Ala Leu Pro Gly Gly Ser Thr Thr Thr Ser Ser Trp Tyr Tyr Tyr Trp, Phe, Thr, Ser Phe Val Ile, Leu, Met, Phe, Ala, Norleu Leu

Alternatively, similar amino acids for making conservative substitutions can be grouped into three categories based on the identity of the side chains. The first group includes glutamic acid, aspartic acid, arginine, lysine, histidine, which all have charged side chains; the second group includes glycine, serine, threonine, cysteine, tyrosine, glutamine, asparagine; and the third group includes leucine, isoleucine, valine, alanine, proline, phenylalanine, tryptophan, methionine, as described in Zubay, G., Biochemistry, third edition, Wm. C. Brown Publishers (1993).

Thus, a predicted non-essential amino acid residue in a luciferase polypeptide is typically replaced with another amino acid residue from the same side chain family. Alternatively, mutations can be introduced randomly along all or part of a luciferase gene coding sequence, such as by saturation mutagenesis, and the resultant mutants can be screened for an activity of the parent polypeptide, as described for example herein, to identify mutants which retain that activity. Following mutagenesis of the coding sequences, the encoded polypeptide can be expressed recombinantly and its activity determined. A “non-essential” amino acid residue is a residue that can be altered from the wild-type sequence of an embodiment polypeptide without abolishing or substantially altering one or more of its activities. Suitably, the alteration does not substantially alter one of these activities, for example, the activity is at least 20%, 40%, 60%, 70% or 80% of wild-type. Illustrative non-essential amino acid residues include any one or more of the amino acid residues that differ at the same position (e.g., residues X₁-X₅₃, as defined in formula VIII supra) between the known luciferase polypeptides shown in FIG. 1. By contrast, an “essential” amino acid residue is a residue that, when altered from the wild-type sequence of a reference luciferase polypeptide, results in abolition of an activity of the parent molecule such that less than 20% of the wild-type activity is present. In some embodiments, essential amino acid residues include those that are conserved in luciferase polypeptides across different species, e.g., P at position 86, G at position 87, K at position 88, K at position 89, P at position 91, V at position 94, E at position 97, E at position 99, A at position 100, N at position 101, A at position 102, A at position 105, G at position 106, C₁ at position 107, R at position 109, G at position 110, C₂ at position 111, L at position 112, C₃ at position 114, L at position 115, S at position 116, I at position 118, K at position 119, C₄ at position 120, T at position 121, M at position 124, I at position 128, P at position 129, G at position 130, R at position 131, C₅ at position 132, Y at position 135, G at position 137, D at position 138, K at position 139, Q at position 143, G at position 145, I at position 146, I at position 151, V at position 152, D at position 153, P at position 155, E at position 156, I at position 157, G at position 159, F at position 160, K at position 161, P at position 165, Q at position 168, F at position 169, I at position 170, A at position 171, Q at position 172, V at position 173, C₆ at position 176, C₇ at position 179, T at position 181, G at position 182, C₈ at position 183, L at position 184, K at position 185, G at position 186, L at position 187, A at position 188, N at position 189, V at position 190, C₉ at position 192, S at position 193, L at position 195, L at position 196, K at position 197, K at position 198, W at position 199, L at position 200, P at position 201, R at position 203, C₁₀ at position 204, F at position 207, A at position 208, K at position 210, I at position 211, Q at position 212, I at position 218, K at position 219, G at position 220, G at position 223 and D at position 224, relative to the consensus numbering of FIG. 1.

Accordingly, the present invention also contemplates as luciferase polypeptides, variants of a reference luciferase polypeptide (e.g., naturally-occurring luciferase polypeptide sequences or their biologically-active fragments), wherein the variants are distinguished from the reference sequence by the addition, deletion, or substitution of one or more amino acid residues. In general, variants will display at least about 40%, 45%, 50%, 51%, 52%, 53%, 54%, 55%, 56%, 57%, 58%, 59% 60%, 61%, 62%, 63%, 64%, 65%, 66%, 67%, 68%, 69% 70%, 71%, 72%, 73%, 74%, 75%, 76%, 77%, 78%, 79%, 80%, 81%, 82%, 83%, 84%, 85%, 86%, 87%, 88%, 89%, 90%, 91%, 92%, 93%, 94%, 95%, 96%, 97%, 98%, 99% similarity to a parent or reference luciferase polypeptide sequence as, for example, set forth in SEQ ID NO: 12, 14, 16, 18, 20, 22, 24, 26, 28, 30, 32, 34, 36, 38, 40, 42, 44, 46, 48, 50, 52, 54, 56, 58, 60, 62, 64, 66, 68, 70, 72, 74, 76, 78, 80, 82, 136, 138, 140, 142, 144, 146, 148, 150, 152, 154, 156, 158, 160, 162, 142, 144, 146, 148, 150, 152, 154, 156, 158, 160, 162, 166, 168, 170, 172, 174, 176, 178, 180, 182, 184, 186, 188, 190, 192, 194, 196, 198, 200, 202, 204, 206, 208, 210, 212, 214, 216, 218, 220, 222, 224, 226, 228, 230, 232, 234, 236, 238, 240, 242, 244, 246, 248, 250, 252, 254, 256, 258, 260, 262, 264, 266, 268, 270, 272, 274, 276, 278, 280, 282, 284, 286, 288, 290, 292, 294, 296, 298, 300, 302, 304, 306, 308, 310 312, 314, 316, 318, 320 322, 324, 326, 328, 330, 332, 334, 336, 338, 340, 34, 344, 346, 348, 350, 352, 354, 356, 358, 360, 362, 364, 366, 368, 370, 372, 374, 376, 378, 380, 382, 384, 386, 388, 390, 392, 394, 396, 398, 400, 402, 404, 406, 408, 410, 412, 414, 416, 418, 420, 422, 424, 426, 428, 430, 432, 434, 436, 438, 440, 442, 444, 446, 448, 450, 452, 454, 456, 458, 460, 462, 464, 466, 468, 470, 472, 474, 476, 478, 480, 482, 484, 486, 488, 490, 492, 494, 496, 498, 500, 502, 504, 506, 508, 510, 512, 514, 516, 518, 520, 522, 524, 526, 528, 530, 532, 534, 536, 538, 540, 542, 544, 546, 548, 550, 552, 554, 556, 558, 560, 562, 564, 566, 568, 570, 572, 574, 576, 578, 580, 582, 584, 586, 588, 590, 592, 594, 596, 598, 600, 602, 604, 606, 608, 610, 612, 614, 616, 618, 620, 622, 624, 626, 628, 630, 632, 634, 636, 638, 640, 642, 644, 646, 648, 650, 652, 654, 656, 658, 660, 662, 664, 666, 668, 670, 672, 674, 676, 678, 680, 682, 684, 686, 688, 690, 692, 694, 696, 698, 700, 702, 704, 706, 708, 710, 712, 714, 716, 718, 720, 722, 724, 726, 728, 730, 732, 734, 736, 738, 740, 742, 744, 746, 748, 750, 752, 754, 756, 758, 760, 762, 764, 766, 768, 780, 782, 784, 786 or 788, as determined by sequence alignment programs described elsewhere herein using default parameters. Desirably, variants will have at least 40%, 45%, 50%, 51%, 52%, 53%, 54%, 55%, 56%, 57%, 58%, 59% 60%, 61%, 62%, 63%, 64%, 65%, 66%, 67%, 68%, 69% 70%, 71%, 72%, 73%, 74%, 75%, 76%, 77%, 78%, 79%, 80%, 81%, 82%, 83%, 84%, 85%, 86%, 87%, 88%, 89%, 90%, 91%, 92%, 93%, 94%, 95%, 96%, 97%, 98%, 99% sequence identity to a parent luciferase polypeptide sequence as, for example, set forth in SEQ ID NO: 12, 14, 16, 18, 20, 22, 24, 26, 28, 30, 32, 34, 36, 38, 40, 42, 44, 46, 48, 50, 52, 54, 56, 58, 60, 62, 64, 66, 68, 70, 72, 74, 76, 78, 80, 82, 136, 138, 140, 142, 144, 146, 148, 150, 152, 154, 156, 158, 160, 162, 142, 144, 146, 148, 150, 152, 154, 156, 158, 160, 162, 166, 168, 170, 172, 174, 176, 178, 180, 182, 184, 186, 188, 190, 192, 194, 196, 198, 200, 202, 204, 206, 208, 210, 212, 214, 216, 218, 220, 222, 224, 226, 228, 230, 232, 234, 236, 238, 240, 242, 244, 246, 248, 250, 252, 254, 256, 258, 260, 262, 264, 266, 268, 270, 272, 274, 276, 278, 280, 282, 284, 286, 288, 290, 292, 294, 296, 298, 300, 302, 304, 306, 308, 310 312, 314, 316, 318, 320 322, 324, 326, 328, 330, 332, 334, 336, 338, 340, 34, 344, 346, 348, 350, 352, 354, 356, 358, 360, 362, 364, 366, 368, 370, 372, 374, 376, 378, 380, 382, 384, 386, 388, 390, 392, 394, 396, 398, 400, 402, 404, 406, 408, 410, 412, 414, 416, 418, 420, 422, 424, 426, 428, 430, 432, 434, 436, 438, 440, 442, 444, 446, 448, 450, 452, 454, 456, 458, 460, 462, 464, 466, 468, 470, 472, 474, 476, 478, 480, 482, 484, 486, 488, 490, 492, 494, 496, 498, 500, 502, 504, 506, 508, 510, 512, 514, 516, 518, 520, 522, 524, 526, 528, 530, 532, 534, 536, 538, 540, 542, 544, 546, 548, 550, 552, 554, 556, 558, 560, 562, 564, 566, 568, 570, 572, 574, 576, 578, 580, 582, 584, 586, 588, 590, 592, 594, 596, 598, 600, 602, 604, 606, 608, 610, 612, 614, 616, 618, 620, 622, 624, 626, 628, 630, 632, 634, 636, 638, 640, 642, 644, 646, 648, 650, 652, 654, 656, 658, 660, 662, 664, 666, 668, 670, 672, 674, 676, 678, 680, 682, 684, 686, 688, 690, 692, 694, 696, 698, 700, 702, 704, 706, 708, 710, 712, 714, 716, 718, 720, 722, 724, 726, 728, 730, 732, 734, 736, 738, 740, 742, 744, 746, 748, 750, 752, 754, 756, 758, 760, 762, 764, 766, 768, 780, 782, 784, 786 or 788, as determined by sequence alignment programs described elsewhere herein using default parameters. Variants of a reference luciferase polypeptide (e.g., wild-type), which fall within the scope of a variant polypeptide, may differ from the reference molecule generally by as much 50, 49, 48, 47, 46, 45, 44, 43, 42, 41, 40, 39, 38, 37, 36, 35, 34, 33, 32, 31, 30, 29, 28, 27, 26, 25, 24, 23, 22, 21, 20, 19, 18, 17, 16, 15, 14, 13, 12, or 11 amino acid residues or suitably by as few as 10, 9, 8, 7, 6, 5 4, 3, 2, or 1 amino acid residue(s). In some embodiments, a variant polypeptide differs from the corresponding sequences in SEQ ID NO: 12, 14, 16, 18, 20, 22, 24, 26, 28, 30, 32, 34, 36, 38, 40, 42, 44, 46, 48, 50, 52, 54, 56, 58, 60, 62, 64, 66, 68, 70, 72, 74, 76, 78, 80, 82, 136, 138, 140, 142, 144, 146, 148, 150, 152, 154, 156, 158, 160, 162, 142, 144, 146, 148, 150, 152, 154, 156, 158, 160, 162, 166, 168, 170, 172, 174, 176, 178, 180, 182, 184, 186, 188, 190, 192, 194, 196, 198, 200, 202, 204, 206, 208, 210, 212, 214, 216, 218, 220, 222, 224, 226, 228, 230, 232, 234, 236, 238, 240, 242, 244, 246, 248, 250, 252, 254, 256, 258, 260, 262, 264, 266, 268, 270, 272, 274, 276, 278, 280, 282, 284, 286, 288, 290, 292, 294, 296, 298, 300, 302, 304, 306, 308, 310 312, 314, 316, 318, 320 322, 324, 326, 328, 330, 332, 334, 336, 338, 340, 34, 344, 346, 348, 350, 352, 354, 356, 358, 360, 362, 364, 366, 368, 370, 372, 374, 376, 378, 380, 382, 384, 386, 388, 390, 392, 394, 396, 398, 400, 402, 404, 406, 408, 410, 412, 414, 416, 418, 420, 422, 424, 426, 428, 430, 432, 434, 436, 438, 440, 442, 444, 446, 448, 450, 452, 454, 456, 458, 460, 462, 464, 466, 468, 470, 472, 474, 476, 478, 480, 482, 484, 486, 488, 490, 492, 494, 496, 498, 500, 502, 504, 506, 508, 510, 512, 514, 516, 518, 520, 522, 524, 526, 528, 530, 532, 534, 536, 538, 540, 542, 544, 546, 548, 550, 552, 554, 556, 558, 560, 562, 564, 566, 568, 570, 572, 574, 576, 578, 580, 582, 584, 586, 588, 590, 592, 594, 596, 598, 600, 602, 604, 606, 608, 610, 612, 614, 616, 618, 620, 622, 624, 626, 628, 630, 632, 634, 636, 638, 640, 642, 644, 646, 648, 650, 652, 654, 656, 658, 660, 662, 664, 666, 668, 670, 672, 674, 676, 678, 680, 682, 684, 686, 688, 690, 692, 694, 696, 698, 700, 702, 704, 706, 708, 710, 712, 714, 716, 718, 720, 722, 724, 726, 728, 730, 732, 734, 736, 738, 740, 742, 744, 746, 748, 750, 752, 754, 756, 758, 760, 762, 764, 766, 768, 780, 782, 784, 786 or 788, by at least 1 but by less than or equal to 50, 49, 48, 47, 46, 45, 44, 43, 42, 41, 40, 39, 38, 37, 36, 35, 34, 33, 32, 31, 30, 29, 28, 27, 26, 25, 24, 23, 22, 21, 20, 19, 18, 17, 16, 15, 14, 13, 12, 11, 10, 9, 8, 7, 6, 5, 4, 3 or 2 amino acid residues. In other embodiments, it differs from the corresponding sequence in any one of SEQ ID NO: 12, 14, 16, 18, 20, 22, 24, 26, 28, 30, 32, 34, 36, 38, 40, 42, 44, 46, 48, 50, 52, 54, 56, 58, 60, 62, 64, 66, 68, 70, 72, 74, 76, 78, 80, 82, 136, 138, 140, 142, 144, 146, 148, 150, 152, 154, 156, 158, 160, 162, 142, 144, 146, 148, 150, 152, 154, 156, 158, 160, 162, 166, 168, 170, 172, 174, 176, 178, 180, 182, 184, 186, 188, 190, 192, 194, 196, 198, 200, 202, 204, 206, 208, 210, 212, 214, 216, 218, 220, 222, 224, 226, 228, 230, 232, 234, 236, 238, 240, 242, 244, 246, 248, 250, 252, 254, 256, 258, 260, 262, 264, 266, 268, 270, 272, 274, 276, 278, 280, 282, 284, 286, 288, 290, 292, 294, 296, 298, 300, 302, 304, 306, 308, 310 312, 314, 316, 318, 320 322, 324, 326, 328, 330, 332, 334, 336, 338, 340, 34, 344, 346, 348, 350, 352, 354, 356, 358, 360, 362, 364, 366, 368, 370, 372, 374, 376, 378, 380, 382, 384, 386, 388, 390, 392, 394, 396, 398, 400, 402, 404, 406, 408, 410, 412, 414, 416, 418, 420, 422, 424, 426, 428, 430, 432, 434, 436, 438, 440, 442, 444, 446, 448, 450, 452, 454, 456, 458, 460, 462, 464, 466, 468, 470, 472, 474, 476, 478, 480, 482, 484, 486, 488, 490, 492, 494, 496, 498, 500, 502, 504, 506, 508, 510, 512, 514, 516, 518, 520, 522, 524, 526, 528, 530, 532, 534, 536, 538, 540, 542, 544, 546, 548, 550, 552, 554, 556, 558, 560, 562, 564, 566, 568, 570, 572, 574, 576, 578, 580, 582, 584, 586, 588, 590, 592, 594, 596, 598, 600, 602, 604, 606, 608, 610, 612, 614, 616, 618, 620, 622, 624, 626, 628, 630, 632, 634, 636, 638, 640, 642, 644, 646, 648, 650, 652, 654, 656, 658, 660, 662, 664, 666, 668, 670, 672, 674, 676, 678, 680, 682, 684, 686, 688, 690, 692, 694, 696, 698, 700, 702, 704, 706, 708, 710, 712, 714, 716, 718, 720, 722, 724, 726, 728, 730, 732, 734, 736, 738, 740, 742, 744, 746, 748, 750, 752, 754, 756, 758, 760, 762, 764, 766, 768, 780, 782, 784, 786 or 788, by at least one 1% but less than or equal to 25%, 24%, 23%, 22%, 21%, 20%, 19%, 18%, 17%, 16%, 15%, 14%, 13%, 12%, 11%, 10%, 9%, 8%, 7%, 6%, 5%, 4%, 3% or 2% of the residues. If the sequence comparison requires alignment, the sequences are typically aligned for maximum similarity or identity. “Looped” out sequences from deletions or insertions, or mismatches, are generally considered differences. The differences are, suitably, differences or changes at a non-essential residue or a conservative substitution, as discussed in more detail below.

The luciferases of the present invention also encompass luciferase polypeptides comprising amino acids with modified side chains, incorporation of unnatural amino acid residues and/or their derivatives during peptide, polypeptide or protein synthesis and the use of cross-linkers and other methods that impose conformational constraints on the peptides, portions and variants of the invention. Examples of side chain modifications include modifications of amino groups such as by acylation with acetic anhydride; acylation of amino groups with succinic anhydride and tetrahydrophthalic anhydride; amidination with methylacetimidate; carbamoylation of amino groups with cyanate; pyridoxylation of lysine with pyridoxal-5-phosphate followed by reduction with NaBH₄; reductive alkylation by reaction with an aldehyde followed by reduction with NaBH₄; and trinitrobenzylation of amino groups with 2,4,6-trinitrobenzene sulfonic acid (TNBS).

The carboxyl group may be modified by carbodiimide activation via O-acylisourea formation followed by subsequent derivatization, by way of example, to a corresponding amide.

The guanidine group of arginine residues may be modified by formation of heterocyclic condensation products with reagents such as 2,3-butanedione, phenylglyoxal and glyoxal.

Sulphydryl groups may be modified by methods such as performic acid oxidation to cysteic acid; formation of mercurial derivatives using 4-chloromercuriphenylsulphonic acid, 4-chloromercuribenzoate; 2-chloromercuri-4-nitrophenol, phenylmercury chloride, and other mercurials; formation of a mixed disulphides with other thiol compounds; reaction with maleimide, maleic anhydride or other substituted maleimide; carboxymethylation with iodoacetic acid or iodoacetamide; and carbamoylation with cyanate at alkaline pH.

Tryptophan residues may be modified, for example, by alkylation of the indole ring with 2-hydroxy-5-nitrobenzyl bromide or sulphonyl halides or by oxidation with N-bromosuccinimide.

Tyrosine residues may be modified by nitration with tetranitromethane to form a 3-nitrotyrosine derivative.

The imidazole ring of a histidine residue may be modified by N-carbethoxylation with diethylpyrocarbonate or by alkylation with iodoacetic acid derivatives.

Examples of incorporating unnatural amino acids and derivatives during peptide synthesis include but are not limited to, use of 4-amino butyric acid, 6-aminohexanoic acid, 4-amino-3-hydroxy-5-phenylpentanoic acid, 4-amino-3-hydroxy-6-methylheptanoic acid, t-butylglycine, norleucine, norvaline, phenylglycine, ornithine, sarcosine, 2-thienyl alanine and/or D-isomers of amino acids. A list of unnatural amino acids contemplated by the present invention is shown in Table 3.

TABLE 3 NON-CONVENTIONAL AMINO ACIDS Non-Conventional Amino Acids α-aminobutyric acid L-N-methylalanine α-amino-α-methylbutyrate L-N-methylarginine aminocyclopropane-carboxylate L-N-methylasparagine aminoisobutyric acid L-N-methylaspartic acid aminonorbornyl-carboxylate L-N-methylcysteine cyclohexylalanine L-N-methylglutamine cyclopentylalanine L-N-methylglutamic acid L-N-methylisoleucine L-N-methylhistidine D-alanine L-N-methylleucine D-arginine L-N-methyllysine D-aspartic acid L-N-methylmethionine D-cystcinc L-N-methylnorleucine D-glutamate L-N-methylnorvaline D-glutamic acid L-N-methylornithine D-histidine L-N-methylphenylalanine D-isoleucine L-N-methylproline D-leucine L-N-medlylserine D-lysine L-N-methylthreonine D-methionine L-N-methyltryptophan D-ornithine L-N-methyltyrosine D-phenylalanine L-N-methylvaline D-proline L-N-methylethylglycine D-serine L-N-methyl-t-butylglycine D-threonine L-norleucine D-tryptophan L-norvaline D-tyrosine α-methyl-aminoisobutyrate D-valine α-methyl-γ-aminobutyrate D-α-methylalanine α-methylcyclohexylalanine D-α-methylarginine α-methylcylcopentylalanine D-α-methylasparagine α-methyl-α-napthylalanine D-α-methylaspartate α-methylpenicillamine D-α-methylcysteine N-(4-aminobutyl)glycine D-α-methylglutamine N-(2-aminoethyl)glycine D-α-methylhistidine N-(3-aminopropyl)glycine D-α-methylisoleucine N-amino-α-methylbutyrate D-α-methylleucine a-napthylalanine D-α-methyllysine N-benzylglycine D-α-methylmethionine N-(2-carbamylediyl)glycine D-α-methylornithiine N-(carbamylmethyl)glycine D-α-methylphenylalanine N-(2-carboxyethyl)glycine D-α-methylproline N-(carboxymethyl)glycine D-α-methylserine N-cyclobutylglycine D-α-methylthreonine N-cycloheptylglycine D-α-methyltryptophan N-cyclohexylglycine D-α-methyltyrosine N-cyclodecylglycine L-α-methylleucine L-α-methyllysine L-α-methylmethionine L-α-methylnorleucine L-α-methylnorvatine L-α-methylornithine L-α-methylphenylalanine L-α-methylproline L-α-methylserine L-α-methylthreonine L-α-methyltryptophan L-α-methyltyrosine L-α-methylvaline L-N-methylhomophenylalanine N-(N-(2,2-diphenylethyl N-(N-(3,3-diphenylpropyl carbamylmethyl)glycine carbamylmethyl)glycine 1-carboxy-1-(2,2-diphenyl-ethyl amino)cyclopropane

The luciferases of the present invention also include polypeptides that are encoded by polynucleotides that hybridize under stringency conditions as defined herein, especially medium or high stringency conditions, to luciferase-encoding polynucleotide sequences, or the non-coding strand thereof, as described below. Illustrative luciferase polynucleotide sequences are set forth in SEQ ID NO:11, 13, 15, 17, 19, 21, 23, 25, 27, 29, 31, 33, 35, 37, 39, 41, 43, 45, 47, 49, 51, 53, 55, 57, 59, 61, 63, 65, 67, 69, 71, 73, 75, 77, 79, 81, 135, 137, 139, 141, 143, 145, 147, 149, 151, 153, 155, 157, 159, 161, 173, 175, 177, 179, 181, 183, 185, 187, 189, 191, 193, 195, 197, 199, 201, 203, 205, 207, 209, 211, 213, 215, 217, 219, 221, 223, 225, 227, 229, 231, 233, 235, 237, 239, 241, 243, 245, 247, 249, 251, 253 255, 257, 259, 261, 263, 265, 267, 269, 271, 273, 275, 277, 279, 281, 283, 285, 287, 289, 291, 293, 295, 297, 299, 301, 303, 305, 307, 309, 311, 313, 315, 317, 319, 321, 323, 325, 327, 329, 331, 333, 335, 337, 339, 341, 343, 345, 347, 349, 351, 353, 355, 357, 359, 361, 363, 365, 367, 369, 371, 373, 375, 377, 379, 381, 383, 385, 387, 389, 391, 393, 395, 397, 399, 401, 403, 405, 407, 409, 411, 413, 415, 417, 419, 421, 423, 425, 427, 429, 431, 433, 435, 437, 439, 441, 443, 445, 447, 449, 451, 453, 455, 457, 459, 461, 463, 465, 467, 469, 471, 473, 475, 477, 479, 481, 483, 485, 487, 489, 491, 493, 495, 497, 499, 501, 503, 505, 507, 509, 511, 513, 515, 517, 519, 521, 523, 525, 527, 529, 531, 533, 535, 537, 539, 541, 543, 545, 547, 549, 551, 553 555, 557, 559, 561, 563, 565, 567, 569, 571, 573, 575, 577, 579, 581, 583, 585, 587, 589, 591, 593, 595, 597, 599, 601, 603, 605, 607, 609, 611, 613, 615, 617, 619, 621, 623, 625, 627, 629, 631, 633, 635, 637, 639, 641, 643, 645, 647, 649, 651, 653, 655, 657, 659, 661, 663, 665, 667, 669, 671, 673, 675, 677, 679, 681, 683, 685, 687, 689, 691, 693, 695, 697, 699, 701, 703, 705, 707, 709, 711, 713, 715, 717, 719, 721, 723, 725, 727, 729, 731, 733, 735, 737, 739, 741, 743, 745, 747, 749, 751, 753, 755, 757, 759, 761, 763, 765, 767, 769, 781, 783, 785 or 787, or their complements.

In some embodiments, calculations of sequence similarity or sequence identity between sequences are performed as follows:

To determine the percent identity of two amino acid sequences, or of two nucleic acid sequences, the sequences are aligned for optimal comparison purposes (e.g., gaps can be introduced in one or both of a first and a second amino acid or nucleic acid sequence for optimal alignment and non-homologous sequences can be disregarded for comparison purposes). In some embodiments, the length of a reference sequence aligned for comparison purposes is at least 30%, usually at least 40%, more usually at least 50%, 60%, and even more usually at least 70%, 80%, 90%, 100% of the length of the reference sequence. The amino acid residues or nucleotides at corresponding amino acid positions or nucleotide positions are then compared. When a position in the first sequence is occupied by the same amino acid residue or nucleotide at the corresponding position in the second sequence, then the molecules are identical at that position. For amino acid sequence comparison, when a position in the first sequence is occupied by the same or similar amino acid residue (i.e., conservative substitution) at the corresponding position in the second sequence, then the molecules are similar at that position.

The percent identity between the two sequences is a function of the number of identical amino acid residues shared by the sequences at individual positions, taking into account the number of gaps, and the length of each gap, which need to be introduced for optimal alignment of the two sequences. By contrast, the percent similarity between the two sequences is a function of the number of identical and similar amino acid residues shared by the sequences at individual positions, taking into account the number of gaps, and the length of each gap, which need to be introduced for optimal alignment of the two sequences.

The comparison of sequences and determination of percent identity or percent similarity between sequences can be accomplished using a mathematical algorithm. In certain embodiments, the percent identity or similarity between amino acid sequences is determined using the Needleman and Wünsch, (1970, J. Mol. Biol. 48: 444-453) algorithm which has been incorporated into the GAP program in the GCG software package (available at http://www.gcg.com), using either a Blossum 62 matrix or a PAM250 matrix, and a gap weight of 16, 14, 12, 10, 8, 6, or 4 and a length weight of 1, 2, 3, 4, 5, or 6. In specific embodiments, the percent identity between nucleotide sequences is determined using the GAP program in the GCG software package (available at http://www.gcg.com), using a NWSgapdna.CMP matrix and a gap weight of 40, 50, 60, 70, or 80 and a length weight of 1, 2, 3, 4, 5, or 6. An non-limiting set of parameters (and the one that should be used unless otherwise specified) includes a Blossum 62 scoring matrix with a gap penalty of 12, a gap extend penalty of 4, and a frameshift gap penalty of 5.

In some embodiments, the percent identity or similarity between amino acid or nucleotide sequences can be determined using the algorithm of E. Meyers and W. Miller (1989, Cabios, 4: 11-17) which has been incorporated into the ALIGN program (version 2.0), using a PAM120 weight residue table, a gap length penalty of 12 and a gap penalty of 4.

The nucleic acid and protein sequences described herein can be used as a “query sequence” to perform a search against public databases to, for example, identify other family members or related sequences. Such searches can be performed using the NBLAST and XBLAST programs (version 2.0) of Altschul, et al., (1990, J. Mol. Biol, 215: 403-10). BLAST nucleotide searches can be performed with the NBLAST program, score=100, wordlength=12 to obtain nucleotide sequences homologous to 53010 nucleic acid molecules of the invention. BLAST protein searches can be performed with the XBLAST program, score=50, wordlength=3 to obtain amino acid sequences homologous to 53010 protein molecules of the invention. To obtain gapped alignments for comparison purposes, Gapped BLAST can be utilized as described in Altschul et al., (1997, Nucleic Acids Res, 25: 3389-3402). When utilizing BLAST and Gapped BLAST programs, the default parameters of the respective programs (e.g., XBLAST and NBLAST) can be used.

Variants of a reference luciferase polypeptide can be identified by screening combinatorial libraries of mutants, e.g., truncation mutants, of a luciferase polypeptide. Libraries or fragments e.g., N terminal, C terminal, or internal fragments, of a luciferase coding sequence can be used to generate a variegated population of fragments for screening and subsequent selection of variants of a reference luciferase.

Methods for screening gene products of combinatorial libraries made by point mutation or truncation, and for screening cDNA libraries for gene products having a selected property are known in the art. Such methods are adaptable for rapid screening of the gene libraries generated by combinatorial mutagenesis of luciferase polypeptides.

The luciferase polypeptides of the present invention may be prepared by any suitable procedure known to those of skill in the art. For example, the luciferase polypeptides may be produced by any convenient method such as by purifying the polypeptides from luciferase-producing organisms. Methods of purification include size exclusion, affinity or ion exchange chromatography/separation. The identity and purity of derived luciferases is determined for example by SDS-polyacrylamide electrophoresis or chromatographically such as by high performance liquid chromatography (HPLC). Alternatively, the luciferases polypeptides may be synthesized by chemical synthesis, e.g., using solution synthesis or solid phase synthesis as described, for example, in Chapter 9 of Atherton and Shephard (supra) and in Roberge et al., (1995, Science, 269: 202).

In some embodiments, the luciferase polypeptides are prepared by recombinant techniques. For example, the luciferase polypeptides of the invention may be prepared by a procedure including the steps of: (a) preparing a construct comprising a polynucleotide sequence that encodes a luciferase polypeptide and that is operably linked to a regulatory element; (b) introducing the construct into a host cell; (c) culturing the host cell to express the polynucleotide sequence to thereby produce the encoded luciferase polypeptide; and (d) isolating the luciferase polypeptide from the host cell. In illustrative examples, the nucleotide sequence encodes at least a biologically active portion of the sequences set forth in SEQ ID NO: 11, 13, 15, 17, 19, 21, 23, 25, 27, 29, 31, 33, 35, 37, 39, 41, 43, 45, 47, 49, 51, 53, 55, 57, 59, 61, 63, 65, 67, 69, 71, 73, 75, 77, 79, 81, 135, 137, 139, 141, 143, 145, 147, 149, 151, 153, 155, 157, 159, 161, 173, 175, 177, 179, 181, 183, 185, 187, 189, 191, 193, 195, 197, 199, 201, 203, 205, 207, 209, 211, 213, 215, 217, 219, 221, 223, 225, 227, 229, 231, 233, 235, 237, 239, 241, 243, 245, 247, 249, 251, 253 255, 257, 259, 261, 263, 265, 267, 269, 271, 273, 275, 277, 279, 281, 283, 285, 287, 289, 291, 293, 295, 297, 299, 301, 303, 305, 307, 309, 311, 313, 315, 317, 319, 321, 323, 325, 327, 329, 331, 333, 335, 337, 339, 341, 343, 345, 347, 349, 351, 353, 355, 357, 359, 361, 363, 365, 367, 369, 371, 373, 375, 377, 379, 381, 383, 385, 387, 389, 391, 393, 395, 397, 399, 401, 403, 405, 407, 409, 411, 413, 415, 417, 419, 421, 423, 425, 427, 429, 431, 433, 435, 437, 439, 441, 443, 445, 447, 449, 451, 453, 455, 457, 459, 461, 463, 465, 467, 469, 471, 473, 475, 477, 479, 481, 483, 485, 487, 489, 491, 493, 495, 497, 499, 501, 503, 505, 507, 509, 511, 513, 515, 517, 519, 521, 523, 525, 527, 529, 531, 533, 535, 537, 539, 541, 543, 545, 547, 549, 551, 553 555, 557, 559, 561, 563, 565, 567, 569, 571, 573, 575, 577, 579, 581, 583, 585, 587, 589, 591, 593, 595, 597, 599, 601, 603, 605, 607, 609, 611, 613, 615, 617, 619, 621, 623, 625, 627, 629, 631, 633, 635, 637, 639, 641, 643, 645, 647, 649, 651, 653, 655, 657, 659, 661, 663, 665, 667, 669, 671, 673, 675, 677, 679, 681, 683, 685, 687, 689, 691, 693, 695, 697, 699, 701, 703, 705, 707, 709, 711, 713, 715, 717, 719, 721, 723, 725, 727, 729, 731, 733, 735, 737, 739, 741, 743, 745, 747, 749, 751, 753, 755, 757, 759, 761, 763, 765, 767, 769, 781, 783, 785 or 787, or a variant thereof. Recombinant luciferase polypeptides can be conveniently prepared using standard protocols as described for example in Sambrook, et al., (1989, supra), in particular Sections 16 and 17; Ausubel et al., (1994, supra), in particular Chapters 10 and 16; and Coligan et al., Current Protocols in Protein Science (John Wiley & Sons, Inc. 1995-1997), in particular Chapters 1, 5 and 6.

Exemplary nucleotide sequences that encode the luciferase polypeptides of the invention encompass full-length luciferase genes as well as portions of the full-length or substantially full-length nucleotide sequences of the luciferase genes or their transcripts or DNA copies of these transcripts. Portions of a luciferase nucleotide sequence may encode polypeptide portions or segments that retain the biological activity of the native polypeptide. A portion of a luciferase nucleotide sequence that encodes a biologically active fragment of a luciferase polypeptide may encode at least about 40, 50, 55, 60, 65, 70, 75, 80, 85, 90, 95, 100, 105, 110, 115, 120, 125, 130, 135, 140, 145, 150, 155, 160, 165, 170, 175, 180, 185, 190, 195, 200 or more contiguous amino acid residues, or almost up to the total number of amino acids present in a full-length luciferase polypeptide.

The invention also contemplates variants of the luciferase nucleotide sequences. Nucleic acid variants can be naturally-occurring, such as allelic variants (same locus), homologs (different locus), and orthologs (different organism) or can be non naturally-occurring. Naturally-occurring nucleic acid variants (also referred to herein as polynucleotide variants) such as these can be identified with the use of well-known molecular biology techniques, as, for example, with polymerase chain reaction (PCR) and hybridization techniques as known in the art. Non-naturally occurring polynucleotide variants can be made by mutagenesis techniques, including those applied to polynucleotides, cells, or organisms. The variants can contain nucleotide substitutions, deletions, inversions and insertions. Variation can occur in either or both the coding and non-coding regions. The variations can produce both conservative and non-conservative amino acid substitutions (as compared in the encoded product). For nucleotide sequences, conservative variants include those sequences that, because of the degeneracy of the genetic code, encode the amino acid sequence of a reference luciferase polypeptide. Variant nucleotide sequences also include synthetically derived nucleotide sequences, such as those generated, for example, by using site-directed mutagenesis but which still encode a luciferase polypeptide. Generally, variants of a particular luciferase nucleotide sequence will have at least about 40%, 45%, 50%, 51%, 52%, 53%, 54%, 55%, 56%, 57%, 58%, 59% 60%, 61%, 62%, 63%, 64%, 65%, 66%, 67%, 68%, 69% 70%, 71%, 72%, 73%, 74%, 75%, 76%, 77%, 78%, 79%, 80%, 81%, 82%, 83%, 84%, 85%, 86%, 87%, 88%, 89%, 90%, 91%, 92%, 93%, 94%, 95%, 96%, 97%, 98%, 99% or more sequence identity to that particular nucleotide sequence as determined by sequence alignment programs described elsewhere herein using default parameters. In some embodiments, the luciferase nucleotide sequence displays at least about 40%, 45%, 50%, 51%, 52%, 53%, 54%, 55%, 56%, 57%, 58%, 59% 60%, 61%, 62%, 63%, 64%, 65%, 66%, 67%, 68%, 69% 70%, 71%, 72%, 73%, 74%, 75%, 76%, 77%, 78%, 79%, 80%, 81%, 82%, 83%, 84%, 85%, 86%, 87%, 88%, 89%, 90%, 91%, 92%, 93%, 94%, 95%, 96%, 97%, 98%, 99% or more sequence identity to a nucleotide sequence selected from any one of SEQ ID NO: 11, 13, 15, 17, 19, 21, 23, 25, 27, 29, 31, 33, 35, 37, 39, 41, 43, 45, 47, 49, 51, 53, 55, 57, 59, 61, 63, 65, 67, 69, 71, 73, 75, 77, 79, 81, 135, 137, 139, 141, 143, 145, 147, 149, 151, 153, 155, 157, 159, 161, 173, 175, 177, 179, 181, 183, 185, 187, 189, 191, 193, 195, 197, 199, 201, 203, 205, 207, 209, 211, 213, 215, 217, 219, 221, 223, 225, 227, 229, 231, 233, 235, 237, 239, 241, 243, 245, 247, 249, 251, 253 255, 257, 259, 261, 263, 265, 267, 269, 271, 273, 275, 277, 279, 281, 283, 285, 287, 289, 291, 293, 295, 297, 299, 301, 303, 305, 307, 309, 311, 313, 315, 317, 319, 321, 323, 325, 327, 329, 331, 333, 335, 337, 339, 341, 343, 345, 347, 349, 351, 353, 355, 357, 359, 361, 363, 365, 367, 369, 371, 373, 375, 377, 379, 381, 383, 385, 387, 389, 391, 393, 395, 397, 399, 401, 403, 405, 407, 409, 411, 413, 415, 417, 419, 421, 423, 425, 427, 429, 431, 433, 435, 437, 439, 441, 443, 445, 447, 449, 451, 453, 455, 457, 459, 461, 463, 465, 467, 469, 471, 473, 475, 477, 479, 481, 483, 485, 487, 489, 491, 493, 495, 497, 499, 501, 503, 505, 507, 509, 511, 513, 515, 517, 519, 521, 523, 525, 527, 529, 531, 533, 535, 537, 539, 541, 543, 545, 547, 549, 551, 553 555, 557, 559, 561, 563, 565, 567, 569, 571, 573, 575, 577, 579, 581, 583, 585, 587, 589, 591, 593, 595, 597, 599, 601, 603, 605, 607, 609, 611, 613, 615, 617, 619, 621, 623, 625, 627, 629, 631, 633, 635, 637, 639, 641, 643, 645, 647, 649, 651, 653, 655, 657, 659, 661, 663, 665, 667, 669, 671, 673, 675, 677, 679, 681, 683, 685, 687, 689, 691, 693, 695, 697, 699, 701, 703, 705, 707, 709, 711, 713, 715, 717, 719, 721, 723, 725, 727, 729, 731, 733, 735, 737, 739, 741, 743, 745, 747, 749, 751, 753, 755, 757, 759, 761, 763, 765, 767, 769, 781, 783, 785 or 787, or their complements.

Luciferase nucleotide sequences can be used to isolate corresponding sequences and alleles from other organisms, particularly other copepods. Methods are readily available in the art for the hybridization of nucleic acid sequences. Coding sequences from other organisms may be isolated according to well-known techniques based on their sequence identity with the coding sequences set forth herein. In these techniques all or part of the known coding sequence is used as a probe that selectively hybridizes to other luciferase-coding sequences present in a population of cloned genomic DNA fragments or cDNA fragments (i.e., genomic or cDNA libraries) from a chosen organism (e.g., a copepod). Accordingly, the present invention also contemplates polynucleotides that hybridize to reference luciferase nucleotide sequences, or to their complements, (e.g., SEQ ID NO: 11, 13, 15, 17, 19, 21, 23, 25, 27, 29, 31, 33, 35, 37, 39, 41, 43, 45, 47, 49, 51, 53, 55, 57, 59, 61, 63, 65, 67, 69, 71, 73, 75, 77, 79, 81, 135, 137, 139, 141, 143, 145, 147, 149, 151, 153, 155, 157, 159, 161, 173, 175, 177, 179, 181, 183, 185, 187, 189, 191, 193, 195, 197, 199, 201, 203, 205, 207, 209, 211, 213, 215, 217, 219, 221, 223, 225, 227, 229, 231, 233, 235, 237, 239, 241, 243, 245, 247, 249, 251, 253 255, 257, 259, 261, 263, 265, 267, 269, 271, 273, 275, 277, 279, 281, 283, 285, 287, 289, 291, 293, 295, 297, 299, 301, 303, 305, 307, 309, 311, 313, 315, 317, 319, 321, 323, 325, 327, 329, 331, 333, 335, 337, 339, 341, 343, 345, 347, 349, 351, 353, 355, 357, 359, 361, 363, 365, 367, 369, 371, 373, 375, 377, 379, 381, 383, 385, 387, 389, 391, 393, 395, 397, 399, 401, 403, 405, 407, 409, 411, 413, 415, 417, 419, 421, 423, 425, 427, 429, 431, 433, 435, 437, 439, 441, 443, 445, 447, 449, 451, 453, 455, 457, 459, 461, 463, 465, 467, 469, 471, 473, 475, 477, 479, 481, 483, 485, 487, 489, 491, 493, 495, 497, 499, 501, 503, 505, 507, 509, 511, 513, 515, 517, 519, 521, 523, 525, 527, 529, 531, 533, 535, 537, 539, 541, 543, 545, 547, 549, 551, 553 555, 557, 559, 561, 563, 565, 567, 569, 571, 573, 575, 577, 579, 581, 583, 585, 587, 589, 591, 593, 595, 597, 599, 601, 603, 605, 607, 609, 611, 613, 615, 617, 619, 621, 623, 625, 627, 629, 631, 633, 635, 637, 639, 641, 643, 645, 647, 649, 651, 653, 655, 657, 659, 661, 663, 665, 667, 669, 671, 673, 675, 677, 679, 681, 683, 685, 687, 689, 691, 693, 695, 697, 699, 701, 703, 705, 707, 709, 711, 713, 715, 717, 719, 721, 723, 725, 727, 729, 731, 733, 735, 737, 739, 741, 743, 745, 747, 749, 751, 753, 755, 757, 759, 761, 763, 765, 767, 769, 781, 783, 785 or 787, or their complements) under stringency conditions described below. As used herein, the term “hybridizes under low stringency, medium stringency, high stringency, or very high stringency conditions” describes conditions for hybridization and washing. Guidance for performing hybridization reactions can be found in Ausubel et al., (1998, supra), Sections 6.3.1-6.3.6. Aqueous and non-aqueous methods are described in that reference and either can be used. Reference herein to low stringency conditions include and encompass from at least about 1% v/v to at least about 15% v/v formamide and from at least about 1 M to at least about 2 M salt for hybridization at 42° C., and at least about 1 M to at least about 2 M salt for washing at 42° C. Low stringency conditions also may include 1% Bovine Serum Albumin (BSA), 1 mM EDTA, 0.5 M NaHPO₄ (pH 7.2), 7% SDS for hybridization at 65° C., and (i) 2×SSC, 0.1% SDS; or (ii) 0.5% BSA, 1 mM EDTA, 40 mM NaHPO₄ (pH 7.2), 5% SDS for washing at room temperature. One embodiment of low stringency conditions includes hybridization in 6× sodium chloride/sodium citrate (SSC) at about 45° C., followed by two washes in 0.2×SSC, 0.1% SDS at least at 50° C. (the temperature of the washes can be increased to 55° C. for low stringency conditions). Medium stringency conditions include and encompass from at least about 16% v/v to at least about 30% v/v formamide and from at least about 0.5 M to at least about 0.9 M salt for hybridization at 42° C., and at least about 0.1 M to at least about 0.2 M salt for washing at 55° C. Medium stringency conditions also may include 1% Bovine Serum Albumin (BSA), 1 mM EDTA, 0.5 M NaHPO₄ (pH 7.2), 7% SDS for hybridization at 65° C., and (i) 2×SSC, 0.1% SDS; or (ii) 0.5% BSA, 1 mM EDTA, 40 mM NaHPO₄ (pH 7.2), 5% SDS for washing at 60-65° C. One embodiment of medium stringency conditions includes hybridizing in 6×SSC at about 45° C., followed by one or more washes in 0.2×SSC, 0.1% SDS at 60° C. High stringency conditions include and encompass from at least about 31% v/v to at least about 50% v/v formamide and from about 0.01 M to about 0.15 M salt for hybridization at 42° C., and about 0.01 M to about 0.02 M salt for washing at 55° C. High stringency conditions also may include 1% BSA, 1 mM EDTA, 0.5 M NaHPO₄ (pH 7.2), 7% SDS for hybridization at 65° C., and (i) 0.2×SSC, 0.1% SDS; or (ii) 0.5% BSA, 1 mM EDTA, 40 mM NaHPO₄ (pH 7.2), 1% SDS for washing at a temperature in excess of 65° C. One embodiment of high stringency conditions includes hybridizing in 6×SSC at about 45° C., followed by one or more washes in 0.2×SSC, 0.1% SDS at 65° C.

In certain embodiments, a luciferase polypeptide is encoded by a polynucleotide that hybridizes to a disclosed nucleotide sequence under very high stringency conditions. One embodiment of very high stringency conditions includes hybridizing 0.5 M sodium phosphate, 7% SDS at 65° C., followed by one or more washes at 0.2×SSC, 1% SDS at 65° C.

Other stringency conditions are well known in the art and a skilled addressee will recognize that various factors can be manipulated to optimize the specificity of the hybridization. Optimization of the stringency of the final washes can serve to ensure a high degree of hybridization. For detailed examples, see Ausubel et al., supra at pages 2.10.1 to 2.10.16 and Sambrook et al. (1989, supra) at sections 1.101 to 1.104.

While stringent washes are typically carried out at temperatures from about 42° C. to 68° C., one skilled in the art will appreciate that other temperatures may be suitable for stringent conditions. Maximum hybridization rate typically occurs at about 20° C. to 25° C. below the T_(m) for formation of a DNA-DNA hybrid. It is well known in the art that the T_(m) is the melting temperature, or temperature at which two complementary polynucleotide sequences dissociate. Methods for estimating T_(m) are well known in the art (see Ausubel et al., supra at page 2.10.8). In general, the T_(m) of a perfectly matched duplex of DNA may be predicted as an approximation by the formula: T _(m)=81.5+16.6(log₁₀ M)+0.41(%G+C)−0.63(%formamide)−(600/length)

wherein: M is the concentration of Na⁺, preferably in the range of 0.01 molar to 0.4 molar; % G+C is the sum of guanosine and cytosine bases as a percentage of the total number of bases, within the range between 30% and 75% G+C; % formamide is the percent formamide concentration by volume; length is the number of base pairs in the DNA duplex. The T_(m) of a duplex DNA decreases by approximately 1° C. with every increase of 1% in the number of randomly mismatched base pairs. Washing is generally carried out at T_(m)−15° C. for high stringency, or T_(m)−30° C. for moderate stringency.

In one example of a hybridization procedure, a membrane (e.g., a nitrocellulose membrane or a nylon membrane) containing immobilized DNA is hybridized overnight at 42° C. in a hybridization buffer (50% deionized formamide, 5×SSC, 5×Denhardt's solution (0.1% ficoll, 0.1% polyvinylpyrrolidone and 0.1% bovine serum albumin), 0.1% SDS and 200 mg/mL denatured salmon sperm DNA) containing labeled probe. The membrane is then subjected to two sequential medium stringency washes (i.e., 2×SSC, 0.1% SDS for 15 min at 45° C., followed by 2×SSC, 0.1% SDS for 15 min at 50° C.), followed by two sequential higher stringency washes (i.e., 0.2×SSC, 0.1% SDS for 12 min at 55° C. followed by 0.2×SSC and 0.1% SDS solution for 12 min at 65-68° C.

4. Chimeric Constructs

The invention further contemplates chimeric constructs comprising a nucleic acid sequence encoding a luciferase of the invention, which is operably linked to a regulatory sequence. The regulatory sequence suitably comprises transcriptional and/or translational control sequences, which will be compatible for expression in the organism of interest or in cells of that organism. Typically, the transcriptional and translational regulatory control sequences include, but are not limited to, a promoter sequence, a 5′ non-coding region, a cis-regulatory region such as a functional binding site for transcriptional regulatory protein or translational regulatory protein, an upstream open reading frame, ribosomal-binding sequences, transcriptional start site, translational start site, and/or nucleotide sequence which encodes a leader sequence, termination codon, translational stop site and a 3′ non-translated region. Constitutive or inducible promoters as known in the art are contemplated by the invention. The promoters may be either naturally occurring promoters, or hybrid promoters that combine elements of more than one promoter. Promoter sequences contemplated by the present invention may be native to the organism of interest or may be derived from an alternative source, where the region is functional in the chosen organism. The choice of promoter will differ depending on the intended host or cell or tissue type. For example, promoters which could be used for expression in mammals include the metallothionein promoter, which can be induced in response to heavy metals such as cadmium, the β-actin promoter as well as viral promoters such as the SV40 large T antigen promoter, human cytomegalovirus (CMV) immediate early (IE) promoter, Rous sarcoma virus LTR promoter, the mouse mammary tumor virus LTR promoter, the adenovirus major late promoter (Ad MLP), the herpes simplex virus promoter, and a HPV promoter, particularly the HPV upstream regulatory region (URR), among others. All these promoters are well described and readily available in the art.

Enhancer elements may also be used herein to increase expression levels of the mammalian constructs. Examples include the SV40 early gene enhancer, as described for example in Dijkema et al. (1985, EMBO J. 4:761), the enhancer/promoter derived from the long terminal repeat (LTR) of the Rous Sarcoma Virus, as described for example in Gorman et al., (1982, Proc. Natl. Acad. Sci. USA 79:6777) and elements derived from human CMV, as described for example in Boshart et al. (1985, Cell 41:521), such as elements included in the CMV intron A sequence.

The chimeric construct may also comprise a 3′ non-translated sequence. A 3′ non-translated sequence refers to that portion of a gene comprising a DNA segment that contains a polyadenylation signal and any other regulatory signals capable of effecting mRNA processing or gene expression. The polyadenylation signal is characterized by effecting the addition of polyadenylic acid tracts to the 3′ end of the mRNA precursor. Polyadenylation signals are commonly recognized by the presence of homology to the canonical form 5′ AATAAA-3′ although variations are not uncommon. The 3′ non-translated regulatory DNA sequence preferably includes from about 50 to 1,000 nts and may contain transcriptional and translational termination sequences in addition to a polyadenylation signal and any other regulatory signals capable of effecting mRNA processing or gene expression.

In some embodiments, the chimeric construct further contains a selectable marker gene to permit selection of cells containing the construct. Selection genes are well known in the art and will be compatible for expression in the cell of interest.

It will be understood, however, that expression of protein-encoding polynucleotides in heterologous systems is now well known, and the present invention is not directed to or dependent on any particular vector, transcriptional control sequence or technique for expression of the polynucleotides. Rather, chimeric constructs prepared according to the methods set forth herein may be introduced into a host cell or animal in any suitable manner in the form of any suitable construct or vector, and the luciferase coding sequence may be expressed with known transcription regulatory elements in any conventional manner.

The luciferase-encoding portion of the chimeric construct may comprise a naturally-occurring sequence or a variant thereof, which has been engineered using recombinant techniques. In one example of a variant, the codon composition of luciferase coding sequence is modified to permit enhanced expression of the luciferase in a host cell or tissue of choice using standard method known in the art. For example, the luciferase coding sequence may be modified to introduce codons that are employed more frequently in one organism relative to another organism, e.g., a distantly related organism. Alternatively or in addition, the coding sequence may be modified to add or modify Kozak sequences and/or introns, and/or to remove undesirable sequences, for instance, potential transcription factor binding sites. Such optimized sequences can produce enhanced expression, e.g., increased levels of protein expression, when introduced into a host cell. Non-limiting host cells for the practice of the present invention include prokaryotic cells (e.g., bacteria) and eukaryotic cells (e.g., plant, yeast, worm, insect or mammalian cells). In specific embodiments, the host cells are mammalian cells, particularly primate, human and can be associated with any animal of interest, including but not limited to domestic animals, such as equine, bovine, murine, ovine, canine, feline, etc. Among these species, various types or cells can be used, such as hematopoietic, neural, mesenchymal, cutaneous, mucosal, stromal, muscle spleen, reticuloendothelial, epithelial, endothelial, hepatic, kidney, gastrointestinal, pulmonary etc. Also, in another embodiment, the cells are stem cells and progenitors, such as hematopoietic neural, stromal, muscle, hepatic, pulmonary, gastrointestinal, etc.

5. Fusion Proteins

The present invention also contemplates fusion proteins of the subject modified luciferase polypeptides, or fragments thereof, which are fused to a heterologous proteinaceous moiety, non-limiting examples of which include a degradation sequence (e.g., a destabilizing amino acid at the amino-terminus of the luciferase polypeptide, a PEST sequence or ubiquitin or biologically active fragments thereof, for decreasing the half-life of the modified luciferase polypeptides, especially for use as transcription reporters for drug discovery), a signal peptide (e.g., one that secretes the luciferase polypeptide or fragment thereof to an extracellular location, etc), an intracellular localization signal such as a nuclear localization signal, a membrane localization signal, a cytoplasmic localization signal, a mitochondrial localization signal, an endoplasmic reticulum (ER) localization signal or a transmembrane localization signal.

Fusion proteins may comprise a subject luciferase, or fragment thereof, and a heterologous or non-luciferase polypeptide (e.g., a “fusion partner”) fused in-frame at the N-terminus and/or C-terminus of a modified luciferase polypeptide of the present invention. Fusion partners include, but are not limited to, polypeptides that can bind antibody specific to the fusion partner (e.g., epitope tags); antibodies or binding fragments thereof; polypeptides that provide a catalytic function or induce a cellular response; ligands or receptors or mimetics thereof; and the like. In such fusion proteins, the fusion partner is generally not naturally associated with the modified luciferase polypeptide of the fusion protein, and is typically not copepod protein or derivative/fragment thereof, i.e., it is not found in Copepoda species.

In other embodiments, the heterologous moiety is a selectable marker protein, illustrative examples of which include selectable marker proteins such as but not limited to kanamycin kinase, neomycin phosphotransferase, aminoglycoside phosphotransferase, puromycin N-acetyl transferase, puromycin resistance protein or biologically active fragments thereof. Chimeric genes of this type can be constructed using standard recombinant or synthetic techniques, as described for example in U.S. Patent Application Publication No. 2002/0150912 and in European Patent Application No. 1 262 553.

The modified luciferases of the present invention may also be fused to heterologous moieties that are photoproteins for BRET applications. Non-limiting examples of such photoproteins include but not limited to aequorin, clytin, obelin, berovin or bolinopsin photoproteins.

6. Applications

The modified luciferases described herein find use in a wide variety of procedures and applications. For example, they may be used in the methods for labeling, analyzing or detecting a biological molecule, cell or cell organelle.

In some embodiments, the subject luciferases find use as in vivo labels (or reporter molecules) in cell and molecular biology assays, including in bacterial and eukaryotic systems, especially in mammalian cells, in bacteria, in yeasts and in plants. In illustrative examples, the modified luciferases are useful in single or multi (e.g., dual) reporter systems for “high content screening” (HCS), for cellular systems, especially for receptors (e.g., detection of receptor dimers, heterodimers and homodimers, including but not limited to detection of G protein coupled receptors (GPCRs)), for ion (e.g., Ca²⁺, Na⁺, K⁺) channels, for transporters, for transcription factors, for inducible systems, for proteinases, for kinases, for phosphodiesterases, for hydrolases, for peptidases, for transferases, for membrane proteins or for glycoproteins.

The modified luciferases of the present invention are also useful as reporter molecules for cellular systems in combination with bioluminescent or chemiluminescent systems, especially systems with oxygenases, or with phosphatases or with photoproteins and ion indicators, especially aequorin, clytin, obelin, berovin and bolinopsin.

They are also useful as marker proteins, including for flow cytometric analysis.

In other embodiments, the modified luciferases described herein are suitable for immobilization, especially by antibodies, by biotin, by magnetic or magnetizable supports.

The modified luciferases of the present invention also find use as markers, including coupled to antibodies, coupled to enzymes, coupled to receptors, coupled to ion channels and other proteins, or used as markers via a coupling mediator, including via biotin, via NHS(N-hydroxysulfosuccinimide) or via CN—Br.

They also find utility in energy transfer systems, especially the FRET (fluorescence resonance energy transfer), BRET (bioluminescence resonance energy transfer), FET (field effect transistors), FP (fluorescence polarization), HTRF (homogeneous time-resolved fluorescence) systems.

The luciferases of the present invention are also useful in protein complementation assays (as disclosed, for example, in Remy & Michnick, 2006, Nature Methods, 3(12):977-979 and Kim et al., 2009, Anal Chem., 81: 67-74) and for analyzing interactions, including protein-protein interactions, DNA-protein interactions, DNA-RNA interactions, RNA-RNA interactions and RNA-protein interactions (DNA:deoxyribonucleic acid; RNA:ribonucleic acid).

In other embodiments, they are useful as markers or fusion proteins for expression in transgenic organisms, especially in mice, in rats, in hamsters and other mammals, in primates, in fish, in worms, in plants.

Additionally, they find utility in bacterial systems, especially for determining titers, as substrates for biochemical systems, especially for proteinases and kinases, in microarrays, in in vivo and ex vivo bioluminescence imaging, tumor research, imaging (e.g., in vitro, in vivo and ex vivo as well as whole animal imaging), infectious disease monitoring, gene delivery monitoring, gene therapy monitoring, biosensors for pollutants and biological disease markers, immunoassays (e.g., immunohistochemistry, Western blot, ELISA and in situ hybridization), drug testing, drug development and bioprocessing (as disclosed, for example, in Roda et al., 2004, Trends in Biotechnology, 22(6): 295-303).

The modified luciferases are also useful in any application based on the monitoring of ATP levels either directly or through coupled enzyme reactions, such as microbiological tests; assays of enzymes, substrates and cofactors; monitoring of bacterial contamination of food; DNA probes assays; receptor:ligand (e.g., ion, 2^(nd) messenger and protein) interactions; protein blotting and photographic assays (see, for example, L. J. Kricka, 1988, Anal. Biochem., 175:14-21).

They are also useful in any industrial/domestic/recreational/military bioluminescent lighting/illumination application based on the emission of light for devices that provide illumination without heat, spark or flame (for example, Cyalume technology).

The present invention is also useful in any application in which light emission is used to create a novelty item, e.g., articles of manufacture designed for entertainment, recreation and amusement, including toys, personal items, such as cosmetics, bath powders, body lotions, gels, powders and creams, toothpastes and other dentifrices, soaps, body paints, and bubble bath, fountains, including liquid “fireworks” and other such jets or sprays or aerosols of compositions that are solutions, mixtures, suspensions, powders, pastes, particles or other formulations, as described for example in U.S. Pat. Nos. 6,113,886, 6,232,107 and 6,436,682.

The present invention is also useful in any materials that could be used in tagging applications or anti-tampering applications.

7. Kits

The present invention further provides kits for the foregoing applications. The kits can be multifunctional so they are useful for more than one purpose or application. Kits typically include the luciferase polypeptides of the invention as such, or a nucleic acid encoding the same suitably with elements for expressing the subject polypeptides, for example, a construct such as a vector comprising a nucleic acid encoding a luciferase polypeptide as defined herein.

In some embodiments, the kits comprise lyophilized modified luciferase in one container, while another container contains reconstitution buffer and optionally one or more ATPase inhibitors (e.g., TCA, DMSA, CTAB, ethanol, and the like). The kits may also supply a luciferase substrate, such as luciferin, coelenterazine, or analogs or functional derivatives thereof. The kit may also supply magnesium or other cations such as manganese or calcium. To facilitate the use of control experiments with known concentrations of ATP, such as in embodiments of the kits that are used to quantify ATP in a sample, a container that has ATP may also be supplied in such kits. The kit may also supply one or more of: a compound that prevents an increase in the amount of ATP in the sample over time (e.g., NaF); an ATPase inhibitor, a buffer or bivalent cations (Mg²⁺; Mn²⁺).

Alternatively, or in addition, the kits may comprise any one or more of a stabilizer, a chelating or sequestering agent, a reducing agent or a cell-lysing agent (e.g., detergents). Non-limiting examples of stabilizers include serum albumins, lactalbumins, ovalbumins, gelatins or THESIT. Illustrative chelating agents are selected from ethylenediaminetetraacetic acid (EDTA), ethylene glycol-bis(2-aminoethylether)-tetraacetic acid (EGTA) or cyclohexane-1,2-diaminetetraacetic acid (CDTA). Suitable reducing agents include but are not limited to thiol-containing compounds, such as DTT CoA, or non-thiol reducing agents such as thiosulfate, sulfite, or dithionite.

In some embodiments, the kits comprise a nucleic acid construct or vector for conducting reporter assays, wherein the construct or vector comprises a nucleotide sequence encoding a luciferase polypeptide of the present invention. In certain embodiments, the kits comprise a plurality of different vectors each encoding a modified luciferase as defined herein, where the vectors are designed for expression in different environments and/or under different conditions, for example, constitutive expression where the vector includes a strong promoter for expression in mammalian cells or a promoterless vector with a multiple cloning site for custom insertion of a promoter and tailored expression, etc.

Also present in the kits may be antibodies specific to the provided luciferase polypeptide.

The different components of the kit may be packaged in separate containers and admixed prior to use. The different components may comprise subsets of these parts and may be combined in any way that either facilitates the application of the invention or prolongs storage life. In most instances the kits contain an instruction booklet for using a modified luciferase of the present invention in any suitable application, as described for example above.

In order that the invention may be readily understood and put into practical effect, particular preferred embodiments will now be described by way of the following non-limiting examples.

EXAMPLES Example 1 Part I: Known Luciferases of the Family

FIG. 1 shows an alignment of the amino acid sequences corresponding to known copepod luciferases, including wild-type and mutant sequences. All of full-length wild-type luciferases are secreted in their native form and the end of their signal peptides is immediately upstream of the secretion-enhancing sequence highlighted in grey. The conserved cysteines C₁ to C₁₀ are highlighted in yellow. These indicated cysteines all form disulfide bonds in the folded protein and are important for luciferase activity. A conserved PGKK motif is underlined.

The inventors noted a high degree of homology between these family members from the conserved PGKK motif onwards. Therefore they aligned this section of the polypeptides (and the signal peptides) using the BLOSUM algorithm within the ClustalW2 program. The region between the signal peptide and the conserved PGKK motif (henceforth named the “leader peptide”) displayed considerable divergence amongst the family members and was aligned manually in FIG. 1.

FIG. 1 also shows the amino acid sequences of the known mutant luciferases of the family. Of these, only 3 are [non-secreted/intracellular]. One of these is the endoplasmic reticulum-retained Gaussia luciferase, described by Prolume, which comprises the C-terminal ER-retention signal KDEL. The other two are the intracellular Gaussia luciferase (GSInGa) and intracellular Metridia longa (ML164) luciferases described in WO/2008/049160, which lack a signal peptide and also comprise a PEST sequence (not indicated in Figure) fused to their C-termini.

The amino acid sequences (from PGKK onwards) were compared and the results are shown as an amino acid identity table (TABLE 4). These data reveal that the family is comprised of two sub-families. Sub-family 1 includes ML45, ML39, ML7, ML16, ML52, ML164, MLAL and MP1. Sub-family 2 includes ML22, MP2a, MP2b and Ga.

TABLE 4 PGKK −> stop Ga ML22 MP2a MP2b MP1 ML39 ML45 ML164 MLAL ML16 ML52 Ga 100 ML22 80.58 100 MP2a 84.78 87.86 100 MP2b 85.51 88.57 99.28 100 MP1 80.43 77.14 76.26 75.54 100 ML39 76.81 75.71 73.38 73.38 93.53 100 ML45 76.09 73.57 71.22 71.22 91.37 93.53 100 ML164 75.36 73.57 70.5 70.5 91.37 93.56 99.28 100 MLAL 76.09 74.29 71.22 71.22 91.3 92.09 97.12 97.84 100 ML16 75.36 73.57 70.5 70.5 90.65 94.24 98.56 99.28 97.12 100 ML52 75.36 72.86 70.5 70.5 90.65 92.81 99.28 98.56 96.4 97.84 100 identity >90% >85% >80% >75% For experimental analysis, 3 members of sub-family 1 (ML45, ML39 and MP1) and 2 members of sub-family 2 (MP2a and ML22) were initially selected.

Example 2 Part II: Intracellular Expression of the Luciferases

Although the secreted forms of these luciferases are reported to provide higher sensitivity than firefly or Renilla luciferases, secreted luciferases accumulate in the culture medium and therefore are not ideal for reporter studies aimed at measuring temporal changes in gene expression. Therefore, the present inventors sought to quantify and compare their performance as intracellular luciferases. To this end, they constructed expression plasmids comprising a humanized coding sequence for each of the 5 selected luciferases, in which the signal peptides were deleted. The encoded polypeptides of these constructs, as well as the restriction enzyme (RE) sites engineered for their subsequent manipulation.

To ensure that any differences in activity related to enzymatic activity rather than simply protein or mRNA half-lives, the inventors used GeneStream's pRR-29.3 plasmids, which comprise a potent RNA destabilizing element and fuse to the C-terminus of the luciferase proteins a potent PEST domain for protein destabilization. Expression was driven by an EF1-alpha promoter.

The resultant plasmids were transiently transfected into HeLa cells. The previously described GSInGa luciferase (e.g., as disclosed in WO 2008/049160) was included as a comparison. As a transfection control, the inventors co-transfected an EF1-alpha driven synthetic orange luciferase (SOL) luciferase that utilizes luciferin as a substrate. Cells were lysed at 24 hrs after transfection and aliquots were transferred to a 96-well plate and assayed at room temperature using a dual-luciferase assay kit (e.g., as disclosed in WO 2002/072844). Flash luminescence was measured using a Victor Light luminometer (Perkin Elmer) and the data was normalised data for SOL activity.

TABLE 5 shows the relative activity of intracellular ML45 (iML45), ML39 (iML39), MP1v1 (iMP1v1), MP2a (iMP2a), ML22 (iML22) and GSInGa luciferases. Surprisingly, the data showed very low activity for all of the novel intracellular luciferase mutants compared to the known GSInGa luciferase, indicating that simple removal of the signal peptide is not sufficient to create intracellular mutants of non-Gaussia members of this family of luciferases with adequate performance levels.

TABLE 5 DLA GSInGa 1264.1 iMP1v1 66.0 iMP2a 40.1 iML22 11.6 iML39 30.6 iML45 44.9

Example 3 Part III: Optimizing the N-Terminal (Leader) Sequence of the Novel Intracellular Luciferases

Analysis of the wild type luciferases shown in FIG. 1 revealed that the most highly variable region within the family lies downstream of the signal peptide and upstream of the conserved PGKK sequence located at our engineered XmaI site. This region was designated the “leader sequence” (also referred to herein as the “secretion-enhancer sequence”) and it was speculated that this region may contribute to the varied performance of different members of the family. As such, the inventors tested the performance effects of substituting in a variety of different synthetic leader sequences via the NcoI and XmaI sites. Using progressively shorter leader sequences, the inventors surprisingly found that a large portion of this leader sequence was non-essential for intracellular localization of an active luciferase.

For example, the inventors created plasmids encoding truncated mutants of each of the 5 test luciferases, in which the wild-type leader sequence was replaced by a very short synthetic leader sequence, which was designated “DAD” (MGSDADRGKM; where the first M is the start codon and the second M is immediately upstream of the conserved PGKK motif). These plasmids and their full-length (FL) counterparts were transiently transfected into HeLa cells and luciferase activity quantified as described in Example 2/TABLE 5. The data are presented in TABLE 6A.

TABLE 6A DLA iMP1v1 iML45 iML22 iMP2a iML39 Ga DAD 31.73 64.02 12.30 22.10 14.44 FL 18.08 10.03 1.72 9.56 7.18 519.64

The results presented in TABLE 6A show that substituting the DAD leader for the wild-type leader sequence improved the signal strength of all 5 luciferases.

Next, the inventors tested the effect of temperature on these luciferases as follows: Twenty μL aliquots of the lysates were transferred to a 96-well plate and manually mixed with 60 μL of Flash & Glow assay buffer (F&G) (Gene Stream Pty Ltd, Australia) to initiate a glow reaction. Ten minutes later, luminescence was measured at room temperature (RT). The plate was then transferred to a refrigerator set to 8° C. and left for 15 min to cool before being quickly transferred back to the luminometer for a second measurement. A duplicate plate was assayed simultaneously and kept at room temperature for luminescence signal normalization. Data were expressed as the percentage change in luminescence; i.e., (8° C. plate-RT plate)/RT plate; and are shown in TABLE 6B.

TABLE 6B 8° C. iMP1v1 iML45 iML22 iMP2a iML39 DAD 645% 246% 656% 868%  999% FL 670% 370% 986% 973% 1239%

TABLE 6B shows that all 5 full-length luciferases generate a much stronger luminescent signal at the cooler temperature. Surprisingly, the truncated leader sequence reduced the magnitude of this change in all cases.

Next, the present inventors investigated the importance of the amino acids within the DAD leader peptide. To determine which, if any, of these amino acids is/are essential, they constructed and tested (as per Example 3/TABLE 6) numerous mutant variants of the DAD leader peptide, in the context of iMP1v1, in which one or more of the amino acids within the (M)GSDADRGKM peptide was substituted or deleted. One such mutant was (M)NSDADRGKM, which represents the native peptide present in that region of MP1v1. Thus, this construct represents a simple truncation, without any amino acid substitutions. It was designated MP1-d. Another mutant tested was (M)NSDADRGKL, which differs from the corresponding native sequence iniMP1v1 only via the substitution of a L for the final M. It was designated MP1-dL

TABLE 7A shows the performance of these mutants. Relative to full-length MP1 (MP1-FL), the deletion mutant (MP1-d) shows enhanced signal in the dual luciferase assay (DLA) and a reduced effect of the temperature change. Surprisingly, MP1-dL showed a very substantial improvement in both parameters, not only relative to the full length control but also relative to MP1-d, which is an identical construct except for the M→L substitution. This single amino acid change led to a 6-fold enhancement in luminescence and greatly reduced the temperature effect (compare MP1-dL to MP1-d). Indeed, the negative value at 8° C. for this mutant suggests that its optimum temperature has been shifted upwards to a level that is closer to RT than 8° C.

TABLE 7A DLA 8° C. MP1-FL 10.5 459.6% MP1-d 15.4 390.2% MP1-dL 92.2  −8.8%

These data show that improved performance can be achieved via a) deleting the region of MP1 upstream of NSDADRGKM and b) substituting an L for the M that lies immediately upstream of the conserved PGKK. To determine whether corresponding mutations in other members of the family provide similar benefits, the inventors selected a member of the other sub-family; iML22. In iML22 the corresponding region is DVDANRGGHGGH. As such, they created a deletion construct of iML22 (ML22d), which comprised the following truncated leader sequence; [(M)DVDANRGGHGGH-PGKK . . . ]. Notably, both iML22 and iMP2a comprise GHGGH in place of the KM of iMP1v1. Therefore, to test the benefit of an “L” mutation in iML22, they created a deletion plus L construct in which the GHGGH was converted to KL; (ML22dL1); (M)DVDANRGKL-PGKK . . . ]. Both of these constructs were tested in comparison to the full-length intracellular control [iML22] as described in Example 2/TABLE 5.

The data shown in FIG. 7B demonstrates that the corresponding mutations also benefit iML22.

TABLE 7B DLA 8° C. ML22-FL  1.2 2705% ML22-d  4.4 2593% ML22-dL 86.1  240%

Next, the inventors constructed and tested the corresponding mutations in other family members; namely ML39, MP2a and ML45. For these experiments they also included mutants that comprise the “L” mutation, without the truncation (ML39-L, MP2a-L and ML45-L). Flash luminescence was also measured using both the DLA and F&G kits (which differ from each other greatly in composition) in order to confirm that the improved signal strength of the mutant luciferases is not restricted to any one assay buffer system.

TABLES 7C-E show that for each family member tested, significant benefit was obtained via either the deletion alone or the “L” alone. This benefit was apparent as an improved signal strength (in both assay buffers) and also as a shift in the temperature effect. Additionally, the data shows further benefit from combining the mutations.

TABLE 7C F&G DLA 8° C. ML39-FL  32.0  4.0 981% ML39-d  72.0 11.7 673% ML39-L 172.3 30.4  97% ML39-dL 304.4 79.2  4%

TABLE 7D F&G DLA 8° C. MP2a-FL  9.3  4.6 1450% MP2a-d  27.1  12.4  872% MP2a-L 114.3  84.1  451% MP2a-dL 133.8 108.9  269%

TABLE 7E (FLASH) F&G DLA 8° C. ML45-FL  24.3  8.9 374% ML45-d  82.8  46.8 225% ML45-L  99.9  51.8  13% ML45-dL 404.4 278.6 −34%

As noted above, iML22 and iMP2a comprise GHGGH in place of the KM of the other Metridia luciferases; and the constructs ML22-dL, MP2a-L and MP2a-dL shown in TABLES 7B and 7D comprise a substitution of KL for the native GHGGH. To determine whether a simple substitution of the final H for L is sufficient to confer the advantage, the inventors constructed non-deleted mutants of these luciferases, in which the GHGGH is converted to GHGGL (MP2a-L2 and ML22-L2) and tested them as described in TABLE 6.

TABLE 8A shows that this single amino acid change is sufficient to improve the performance of these luciferases.

TABLE 8A F&G DLA 8° C. MP2a-FL  24.0  13.9  978% MP2a-L2 317.2 330.1  370% ML22-FL  10.9  3.0 3325% ML22-L2 276.7 132.7  413%

The effect of the M→L substitution was also tested in a secreted version of MP1. For this experiment, of course, the conditioned medium rather than the lysate was assayed. TABLE 8B shows that this M→L substitution also provides considerable benefit to the secreted luciferase.

TABLE 8B DLA F&G 8° C. wt sMP1 1,861 2,928 −61.5% M→L 5,159 5,064 −85.7%

Example 4 Part IV: Optimising the Context of C6 in the Novel Intracellular Luciferases

During an extended search/screen for other beneficial mutations, the present inventors identified the amino acids flanking the 6^(th) cysteine (C6) as an important determinant of performance. Within this region the wild type luciferases have the following subsequences: LCVD, LCAD, RCTD, RCAS, RCTS, LCAT and LCED (see FIG. 1).

As a starting point for these studies, a mutant MP1v1 construct was used comprising a truncated leader sequence and the M->L mutation as described above. The inventors utilized the engineered XmaI, BsrGI, SalI, AgeI and HindIII restriction enzyme (RE) sites to create chimeras of this construct with portions of other family members and then tested performance as described in Example 2/TABLES. One chimera (designated Chi5), showed improved performance. This construct comprised the SalI-AgeI fragment of iML45, which includes the C6 region and results in a change of C6 context from LCAD to RCAS.

To determine whether RCAS was responsible for the improvement; and also to screen for further improvements via other alterations to this region the inventors constructed and tested mutants of Chi5 comprising a variety of different amino acid sequences in this region, as presented in TABLES 9A-9C below.

TABLE 9A DLA F&G 10 m 8o C. LC₆AD 116.5 577.0 195.1 74.4% LC₆AS 84.0 455.5 197.7 82.0% LC₆VD 69.5 360.0 185.8 105.1% RC₆AD 329.0 >1000.5 595.6 42.1% RC₆TD 193.5 869.0 356.5 111.6% RC₆TS 156.0 745.0 282.2 138.7% RC₆AS 220.0 793.0 445.6 82.0%

TABLE 9B DLA F&G 10 m 8 C. QC₆SD 265 399 69 207.2% QC₆AD 389.1 551.5 115.3 82.9% HC₆AD 293.0 502.2 58.9 197.5% KC₆AD 419.4 749.5 139.0 68.0% RC₆AD 367.2 711.2 153.7 24.8% RC₆ED 444.2 791.0 160.7 22.9% RC₆HD 231.4 482.4 102.0 91.3%

TABLE 9C DLA F&G 10 m 8° C. RC₆AE 262 730 96 120% RC₆AD 329 853 138 106%

The data presented in TABLE 9A show the following:

RCAS is responsible for the improvement seen in Chi 5; compare RCAS to LCAD.

An R in the first position is superior to an L; e.g. compare RCAS to LCAS and RCAD to LCAD.

An A in the third position is superior to a V, T or S; e.g., compare RCAD to RCTD and LCAD to LCVD and QCAD to QCSD.

A D in the fourth position is superior to a S; e.g., compare RCAD to RCAS

The optimum sequence is RCAD; compare RCAD to all others.

The data presented in TABLE 9B show the following:

In the first position, R, K, Q, and (to a lesser extent) H are all acceptable in that they provide better signal strength than L; compare KCAD, QCAD and HCAD to RCAD in TABLE 9B and compare this difference to the larger difference between RCAD and LCAD in TABLE 9A. With respect to the temperature effect, however, a marked difference was seen; with R showing the least increase at 8° C., followed by K, then Q and then H.

In the third position, an E is as good as (or better than) an A, whilst an H is clearly inferior; compare RCED, RCHD and RCAD.

The data presented in TABLE 9C show the following:

In the fourth position, an E provides good performance; compare RCAE to RCAD and compare this difference to the larger difference between RCAD and RCAS in TABLE 9A.

The combined data shows that improved performance can be attained by converting the C6 region to the following peptide formula; R/K/Q/H—C-A/E-D/E, which is not contained in any of the known luciferases.

Later it was sought to confirm that the same mutations provide benefit to members of the other subfamily. Therefore, the inventors created and tested mutants of iMP2a and iML22 (as described in Example 2) in which the C6 peptide was mutated to RCAD. The corresponding subsequences of the corresponding wild type luciferase sequences are LCVD in iMP2a and LCED in iML22.

TABLES 10A and 10B show that this mutation does indeed improve the performance of these luciferases.

TABLE 10A DLA F&G 10 m 8° C. iML22 LC₆ED (wt) 2.27 3.80 0.13 3950.7% RC₆AD 3.80 13.02 0.36 3839.8%

TABLE 10B 101005 DLA F&G 10 m 8° C. iMP2a LC₆VD (wt) 8.09 7.92 0.12 2342.0% RC₆AD 36.80 48.43 0.58 1271.3%

Additionally, the present inventors tested the benefit of the C6 mutation in the context of a secreted luciferase. For this experiment they utilized the secreted MP1v1 (sMP1v1) luciferase with an M→L substitution as described in TABLE 8B. The resultant data, shown in TABLE 10C, demonstrates that this mutation does indeed provide benefit to a luciferase in its secreted format.

TABLE 10C DLA F&G 10 m 8° C. 32° C. sMP1v1 LC₆AD 1,642 1,844 164 −88.4% −30.7% M→L RC₆AD 2,098 2,079 185 −90.2% −19.8%

Example 5 Part V: Optimising the Context of C9 in the Novel Intracellular Luciferases

The inventors also searched for beneficial mutations within the amino acids flanking the 9^(th) cysteine (C9). Within this region the wild-type luciferases have the following subsequences: KCSA, KCSE, QCSD, HCSD and HCSA.

As a starting point for these studies, the mutant iMP1v1 construct was used, comprising RC6AD, the truncated leader sequence and M→L mutation as described above. The data are shown in TABLE 11.

TABLE 11A DLA F&G 10 m 8° C. KC₉AE 31 99 20 151% KC₉SD 157 520 94 116% KC₉SE 144 375 71 101% RC₉AD 10 19 21 114% RC₉AE 14 34 33  94% RC₉SE 94 307 42  81% KC₉SA 132 350 58 146%

TABLE 11B DLA F&G 10 m 8° C. QC₉AD 31 48 56  97% QC₉SD 252 612 101 175% RC₉AD 45 66 76  35% KC₉SD 266 772 138  86%

The data depicted in TABLE 11 show the following:

A K in the first position is superior to an R or a Q; e.g., compare KCSE to RCSE and KCAE to RCAE in Table 11A; and KCSD to QCSD in TABLE 11B.

A S in the third position is superior to an A; e.g., compare KCSE to KCAE in TABLE 11A and QCSD to QCAD in TABLE 11B.

A D in the fourth position is superior to an A or E; e.g., compare KCSD to KCSA and KCSE in TABLE 11A

The optimum sequence is KCSD; compare KCSD to all others.

The combined data show that improved performance can be obtained by converting the C9 region to KCSD that is not contained in any of the known luciferases.

Next, it was sought to confirm that the same modifications provide benefit to members of the other subfamily. Therefore, mutants of iMP2a and iML22 (as described in Example 2), were created and tested in which the C9 peptide was mutated to KCSD. The corresponding peptides of the wild type luciferases are HCSA in iMP2a and HCSD in iML22. Thus, the iML22 mutation also serves to compare K to H in the first position.

TABLE 12 shows that this mutation does indeed improve the performance of these luciferases. Additionally, the data show that a K in the first position is superior to a H; compare iML22-KCSD to iML22-HCSD in TABLE 12A.

TABLE 12A DLA AB9 10 m 8° C. iML22 HC₉SD (wt) 2.27 3.80 0.13 3950.7% KC₉SD 7.28 18.85 0.36 3104.1%

TABLE 12B DLA AB9 10 m 8° C. iMP2a HC₉SA(wt) 8.09 7.92 0.12 2342.0% KC₉SD 28.07 48.44 0.48 1898.3%

Example 6 Part VI: Optimising the Context of C5 in the Novel Intracellular Luciferases

The present inventors also searched for beneficial mutations within the amino acids flanking the 5^(th) cysteine (C5). Within this region the wild type luciferases have the following subsequences: RCHD, RCHT and RCHS.

As a starting point for these studies a mutant iMP1v1 construct was used comprising a truncated leader sequence, the M→L mutation, and RC6AD as described above. The data are presented in TABLE 13A.

TABLE 13A DLA F&G 10 m 8° C. RC₅HD 1,028 974 173 116% RC₅AD 1,685 1,671 200  19%

Additionally, they used as a starting point a mutant iMP1v1 construct comprising the same mutations but also comprising KC9SD as described above. The data are presented in TABLE 13B

TABLE 13B DLA F&G 10 m 8° C. RC5HD 1314 1387 268 104% RC5AD 1738 1959 287  25%

The data shown in TABLE 13 demonstrate that a single amino acid change from H to A is sufficient to provide substantially improved performance. This is particularly surprising considering that the native H at this position is conserved amongst all of the wild-type luciferases.

Whereas all members of sub-family 1 comprise RC5HD, the members of subfamily 2 comprise RCHT (Gaussia) or RCHS (MP2a and ML22). The inventors constructed mutants of MP2a-L2 in which the native RCHS was converted to RCAS, RCAT or RCAD; and tested them as described above. The data is shown in TABLE 13C.

TABLE 13C DLA F&G 10 m 8° C. RC₅HS 53.0 61.4 0.68 416% RC₅AS 102.1 87.0 0.72 230% RC₅AT 96.5 138.3 1.02 201% RC₅AD 75.0 69.8 0.76 301%

The data shown in TABLE 13C demonstrate that the single amino acid change from H to A is also sufficient to provide substantially improved performance in this luciferase. Additionally, all 3 permutations (RCAS, RCAT and RCAD) provided performance benefits.

Example 7 Part VII: Further Optimisation of the N-Terminal (Leader) Sequence

Amongst the many synthetic leader sequences tested, one that performed very well was EAEAERGKL. The inventors cloned this leader and various mutations thereof into the RC5AD construct described in TABLE 13B [i.e., mutant iMP1v1 with RC5AD, RC6AD and KC9SD] and tested their performance as described in Examples 2-6. The data are shown in TABLE 14.

TABLE 14A shows the performance effects of further truncations of the leader sequence. Even the longest truncation, which extended all the way to the critical L (construct=M−L−PGKK . . . ) yielded a functional luciferase; although better performance was achieved with inclusion of the 2-6 amino acids that lie immediately upstream of this residue.

TABLE 14B includes some of these same deletion constructs as well as constructs comprising amino acid substitutions. Notably, mutation of the critical “L” to a V, or even the more conservative change to an I, caused a very substantial drop in performance. Indeed, the performance of these mutants was worse than that of the longest truncation (to L alone). Including amino acids upstream of the critical L (e.g., ERGK) improved performance, though other mutants suggested that the R and K within this motif can tolerate substitutions (e.g., R→A and K→G).

TABLE 14C shows the effect of other substitutions for the critical L. A very substantial drop in performance was seen when this L was substituted with a A, F, H, P or T.

TABLE 14A DLA F&G 10 m 8° C. EAEAERGKL 494 747 195 −57.3% AEAERGKL 508 711 190 −62.5% EAERGKL 438 636 181 −62.2% ERGKL 361 530 156 −60.8% GKL 175 285  89 −67.0% L  97 222  64 −57.1%

TABLE 14B DLA F&G 10 m 8° C. EAEAERGKL 704 828 222 −72.0% EAEAERGKI 100 219 73 49.7% EAEAERGKV 64 144 52 100.6% EAEAERGGL 748 738 196 −56.3% EAEAGKL 544 721 177 −61.8%

TABLE 14C DLA F&G 10 m 8° C. EAEAERGKL 540.9 1,179.5 221.3 −68.2% EAEAERGKA 44.1 194.9 60.0 129.3% EAEAERGKF 47.5 195.4 80.3 83.1% EAEAERGKH 40.7 192.4 59.0 248.7% EAEAERGKP 56.3 283.0 82.1 124.3% EAEAERGKT 57.5 310.8 86.6 127.1% EAEAERGKY 22.4 127.6 39.6 265.8%

TABLE 14D DLA F&G 10 m 8° C. 32° C. M 24.9 84.2 19.3 264.4% −85.1% ML 133.9 280.2 76.0 −75.1% −54.9% MKL 117.4 249.7 63.1 −66.0% −47.6% MGKL 175.6 299.5 73.5 −68.4% −41.1% MRGKL 50.5 169.6 40.3 −70.0% −44.6% MERGKL 418.3 684.7 156.8 −64.9% −50.6% MGGHGGH 20.4 65.2 17.22 244.2% −86.6% MGGHGGL 215.0 472.6 110.1 −56.1% −54.8% MGGL 89.9 203.5 49.1 −56.2% −53.3%

Example 8 Part VIII: Optimising the Context of C10 in the Novel Intracellular Luciferases

The present inventors also searched for beneficial mutations within the amino acids flanking the 10^(th) cysteine (C10). Within this region the wild type luciferases have the following peptides; DRCAS, QRCAT, SRCKT and GRCAS.

As a starting point for these studies the mutant iMP1v1 construct was used with the EAEAERGKL leader as described in TABLE 14 [i.e., also containing RC5AD, RC6AD, KC9SD]. Various modifications around C10 were tested and one mutant demonstrated enhanced performance. This mutant, designated GRC10AS in TABLE 15A [and designated Clone 21 in TABLE 16], comprised a D→G substitution at the second residue upstream of C10. The data shows that this substitution results in enhanced flash signal in DLA, a slightly lower flash signal in Flash & Glow (F&G) and notably, a larger loss of activity at 8° C. This latter feature suggests a further rise in optimum temperature to a level well above 8° C. Therefore, an additional temperature experiment was performed in which the plates were moved into a 32° C. incubator. The data show that the D→G mutation reduces the loss in signal when the sample is heated to 32° C.

TABLE 15A DLA F&G 10 m 8° C. 32° C. DRC₁₀AS 497.6 778.3 196.2 −74.5% −41.2% GRC₁₀AS 937.5 611.9 189.2 −91.3% −24.3%

Based on the surprising results of TABLE 15A, the present inventor tested additional modifications to the second residue upstream of the C10 position and present the results in TABLE 15B and 15C.

TABLE 15B DLA F&G 10 m 8° C. 32° C. DRC₁₀AS 357 568 147 −65.7% −41.3% NRC₁₀AS 695 626 153 −83.4% −23.9% SRC₁₀AS 704 584 120 −81.0% −31.1% ARC₁₀AS 594 451 141 −83.4% −23.9% TRC₁₀AS 671 556 149 −83.8% −19.1% QRC₁₀AS 587 496 159 −87.2% −23.7% GRC₁₀AS 704 474 141 −88.2% −22.8% GRC₁₀AT 805 500 158 −90.0% −23.4% QRC₁₀AT 732 610 185 −88.4% −11.8% SRC₁₀KT 387 329 78 −89.3% −24.3%

TABLE 15C DLA F&G 10 m 8° C. 32° C. DRC₁₀AS(wt) 758 1,157 238 −61.77% −45.80% GRC₁₀AS 952 584 155 −86.12% −32.98% ERC₁₀AS 1,345 1,255 320 −89.59% −26.48% HRC₁₀AS 1,042 907 150 −60.78% −36.28% KRC₁₀AS 464 463 152 −82.35% −35.19% PRC₁₀AS 26 58 4 144.44% −57.92% RRC₁₀AS 462 439 147 −82.73% −35.39% TRC₁₀AS 939 724 163 −81.59% −24.83% QRC₁₀AT 891 720 184 −88.77% −16.20% GRC₁₀AT 1,073 731 202 −88.85% −21.32%

The data in TABLE 15B and TABLE 15C demonstrate that performance enhancements can be obtained by substituting D for any of; G, N, S, A, T, Q, E, H, K and R. These data also show that substitution of T for the S in the DRC10AS motif provides further benefit. Additionally, the data shows that the SRC10KT motif (present in MP2a and ML22) can be improved by substituting an A for the K.

Next, the inventors constructed and tested similar mutations in nsMP2a. The data is shown in TABLE 15D.

TABLE 15D DLA F&G 10 m 8° C. 32° C. QRC₁₀AT  94.6 190.8 1.23 1538.1% −84.5% TRC₁₀AT  32.5  89.3 0.98 1582.1% −83.0% GRC₁₀AS 114.2 167.3 1.19 1180.5% −85.0% GRC₁₀AT 147.1 221.1 1.81  985.9% −81.8% GRC₁₀KT  59.3  87.4 0.73 1467.5% −79.9% SRC₁₀KT (wt)  17.8  34.4 0.27 2025.5% −81.5%

TABLE 15D demonstrates that the performance of nsMP2a can also be improved via substitution of G for S in the SRC10KT motif to generate GRC10KT. Further substitution of A for K to generate GRC10AT provided additional benefit.

Next, we tested the benefit of a C10 mutation in nsMP1; i.e. in a construct that contained none of the other beneficial mutations. The results are shown in TABLE 15E and indicate that substitution of G for D also provides considerable benefit in the absence of other mutations.

TABLE 15E DLA F&G 10 m 8° C. 32° C. MP1 DRC₁₀AS(wt) 10 25 17 297.9% −84.9% MP1 GRC₁₀AS 116 181 45  7.7% −70.4%

Example 9 Part IX: Comparative Performance of Synthetic Luciferases of the Invention

To quantify the performance benefits of combining the mutations described above, the inventors tested the 6 different full length (wt) intracellular luciferases together with the GRC10AS clone described in TABLE 15, that was designated Clone 21. Clone 21 comprises the following mutations:

leader peptide truncation and M→L substitution (MEAEAERGKL)

RC6AD

KC9SD

RC5AD

GRC10AS

The data are shown in TABLE 16A and demonstrate a massive improvement in all measures of signal intensity and a substantial rise in optimum temperature that led to a greatly reduced effect of warming from RT to 32° C.

TABLE 16A DLA F&G 10 m 8° C. 32° C. ML22 0.61 1.70 0.11 2731.7% −57.4% MP2a 2.61 3.31 0.11  983.7% −64.9% ML39 5.36 17.85 5.78  737.6% −79.7% ML164 1.65 7.14 10.25  207.2% −78.4% ML45 4.71 17.60 15.50  152.2% −76.3% MP1 7.40 30.82 11.99  388.5% −82.2% Ga 273.44 182.12 35.81  88.4% −68.2% clone 21 1,014.19 600.81 173.52  −90.9% −23.1%

To confirm that the benefit of these mutations is not limited to luciferases comprising a PEST sequence, the PEST sequences were removed from Clone 21 and the performance of the original iMP1v1 was tested and compared. TABLE 16B shows that considerable benefit is attained, even in the absence of PEST sequences.

TABLE 16B DLA F&G 10 m 8° C. 32° C. MP1 no PEST 55.2 173.9 48.7 197.2% −79.0% CI-21 no PEST 2,216.6 1,201.3 231.6 −89.7% −20.7%

TABLE 16C ML164 Ga MP1 ML45 ML22 MP2a ML39 21-GRCAT 19° C. 39.3% 13.9% 62.9% 24.3% 44.3% −6.7% 61.6% −12.7% 27° C. −70.6% −53.8% −77.1% −71.4% −60.8% −68.3% −77.8% −11.0%

To quantify the benefit of these mutations in a defined assay buffer system an assay was performed using the v6 lysis buffer and assay buffer comprising 25 mM Tris pH 7.75, 0.6 mM reduced glutathione, 0.4 mM oxidized glutathione, 1 mM EDTA, 2 mM Ascorbate, 24 μM Cz as defined in Example 28 of WO 2008/049160. TABLE 17 shows that the considerable benefit of these mutations in terms of both signal strength and temperature effect also applies to assays using these reagents. Clone 22 is the same as Clone 21, except that it contains GRC10AT. Clone 16 is the same as Clone 21, except that it contains DRC10AS.

TABLE 17 DLA v6 10 m 8° C. 32° C. ML39 7.0 14.5 3.6 633.7% −53.8% MP1 10.6 24.2 9.6 488.9% −71.4% ML164 1.6 4.1 6.5 243.0% −57.1% ML45 6.5 15.1 11.5 236.4% −67.9% Gs 398.3 580.9 67.6  32.7% −64.3% CI-16 877.7 1,146.5 252.4 −20.8% −49.7% CI-21 1,223.8 1,066.3 281.4 −59.0% −33.9% CI-22 1,180.6 1,057.7 316.9 −62.5% −31.2%

To quantify the benefit of these mutations in the context of secreted luciferases, the inventors performed assays on secreted versions (which lack a PEST sequence) using the same methodology as for intracellular protein described previously. The results are shown in TABLE 18A and 18B, and confirm the benefit of the inventor's discovery is applicable in both intracellular and secreted luciferases.

TABLE 18A F&G 10 m 8° C. 32° C. sGa no PEST 169.7 13.5  49.56% −60.2% sML164 no PEST 17.8 12.6  3.14% −66.7% sCI-16 no PEST 1,234.3 34.0 −78.17% −24.6% sCI-16 MP1L Is no PEST 2,075.5 94.1 −78.89% −31.3%

TABLE 18B DLA F&G 10 m 8° C. 32° C. sMP1 no PEST 903 2243 1095 −53.7 −70.06 sCI16-MP1L Is noPEST 3,934 4,221 2275 −82.5% −0.05%

To demonstrate the benefits of the inventor's mutations on secreted luciferases, sequential loss of benefit mutations were generated to demonstrate benefits as shown in TABLE 18C and 18D. In TABLE 18C& 18D, sMP1 mutations are labeled as follows: L=M−L substitution; C6=RC6AD; C9=KC9SD; C5=RC5AD; C10=GRC10AS; Truncated=GSEAEAERGKL after the signal peptide. Of particular note is the response to 32° C., which indicates that each and every successive mutation raises the optimum temperature of the luciferase.

TABLE 18C DLA F&G 10 m 8° C. 32° C. wt MP1 903 2,243 219 −60.4% −71.7% −5 L 3,050 4,301 389 −79.8% −29.2% −4 L ME 3,350 4,831 398 −78.1% −33.2% −3 L ME C6 3,731 4,199 299 −85.4% −25.2% −2 L ME C6 3,541 3,936 313 −89.2% −23.5% C9 −1 L ME C6 3,232 3,467 275 −83.2% −16.7% C9 KK  0 L ME C6 3,934 4,221 228 −82.5% 0.0% C9 KK C5 −3GRC10AS L ME C6 4,097 2,519 200 −94.1% 36.7% C10

TABLE 18D DLA F&G 10 m 8° C. 32° C. 0 L ME C6 1,428 1,286 71 −86.70% 0.37% C9 KK C5 truncation L ME C6 461 301 22 −86.77% 9.28% C9 KK C5 trunc

To quantify the performance benefits of combining the mutations described above, the inventors tested the 6 different full length (wt) secreted luciferases together with mutants described in TABLE 18C and 18D.

The data is shown in TABLE 19A and demonstrates a enormous improvement in all measures of signal intensity and a substantial rise in optimum temperature that led to a greatly reduced effect of warming from RT to 32° C.

TABLE 19A DLA AB9 10 m 8 C. 32 C. Ga wt 1,054 498 51 6.58% −59.67% ML164 wt 20 67 47 −14.04% −71.72% MP1 wt 835 2,073 202 −60.4% −71.7% −5 L 3,049 4,301 389 −79.8% −29.2% −4 L ME 3,754 4,830 397 −78.1% −33.2% −3 L ME 3,949 4,318 297 −85.4% −25.2% C6 −2 L ME 3,541 3,936 313 −89.2% −23.5% C6 C9 −1 L ME 3,231 3,467 275 −83.2% −16.7% C6 C9 KK  0 L ME 3,934 4,225 228 −82.5% 0.0% C6 C9 KK C5 −3GRC10AS L ME 4,350 2,721 217 −94.1% 36.7% C6 C10

In addition, to confirm that the benefits are not dependent on buffer composition, the inventors assayed the conditioned medium via an assay buffer that comprised only medium (RPMI) and coelenterazine.

The data is shown in TABLE 19B and demonstrates a enormous improvement in all measures of signal intensity and a substantial rise in optimum temperature that led to a greatly reduced effect of warming from RT to 32° C.

TABLE 19B RPMI & CTZ 10 m 8° C. 32° C. Ga wt 24  38.7% −52.9% ML164 wt 23 162.0% −55.6% MP1 wt 97 148.8% −81.5% −5 L 269  8.2% −70.9% −4 L ME 257  19.1% −71.7% −3 L ME C6 206 −14.5% −67.8% −2 L ME C6 C9 198 −20.2% −70.4% −1 L ME C6 C9 KK 183 −18.7% −63.5% 0 L ME C6 C9 KK C5 489 −30.6% −65.5% −3GRC10AS L ME C6 C10 307 −75.6% −44.6%

Next, the inventors sought to quantify the benefits of the improved temperature response in the context of a temperature range that more closely resembles the potential range of temperatures to which a “room temperature” sample could be exposed. To this end, the inventors modified our standard temperature assay from 8° C./32° C. to 19° C./27° C. Note that these are the temperatures immediately prior to moving the plates into the luminometer, such that some level of temperature equilibration would occur prior to measurement; thus reducing the true temperature range even further. The data is shown in TABLE 20A

TABLE 20A nsML164 nsGa nsMP1 nsML45 nsML22 nsMP2a nsML39 CI-21 19° C. 39.3% 13.9% 62.9% 24.3% 44.3% −6.7% 61.6% −12.7% 27° C. −70.6% −53.8% −77.1% −71.4% −60.8% −68.3% −77.8% −11.0%

TABLE 20A shows that the luminescence of Clone-21 (Cl-21) deviated from the true RT measurement by less than 13% when either cooled to 19° C. or warmed to 27° C. In stark contrast to this, all wild-type intracellular luciferases showed a substantially greater variation in luminescence in response to these temperature changes.

To further define the optimum temperatures of the non-secreted luciferases and their response to temperature changes, the inventors plated lysates in replicate 96-well plates and initiated glow reactions with the F&G assay buffer. One plate was then moved into a fridge to cool while the control plate remained at RT. Both plates were then measured repeatedly and the temperature of the assay reaction was monitored immediately prior to each read. As the cooled plate reached room temperature, it was moved in and out of a 37° C. oven in order to obtain the higher temperature reads. Data are shown in FIG. 2 as the luminescence of the temperature adjusted plate relative to the control (RT) plate.

FIG. 2 shows that, compared to the w.t. luciferases and Clone 22, Clone 22 comprises the following mutations:

leader peptide truncation and M→L substitution (MEAEAERGKL)

RC6AD

KC9SD

RC5AD

GRC10AT

Clone 22 (undergoes only minimal changes in luminescence as the temperature changes within the range of 18-28° C. This is an important temperature range for assays conducted on a laboratory bench, where RT can vary and where some heating above RT is unavoidable due to the heat generated by the electronics within the luminometer; e.g., temperature within the inventors' luminometer can rise as high as 27° C. during extended operation.

Next the inventors measured temperature effect in flash reactions. Lysates were loaded onto a 96-well plate (32 replicate samples for each luciferase) and cooled in a fridge prior to moving the plate into the luminometer for measurement via flash reactions following automatic injection of RT assay buffer. Inside the luminometer, these lysates are warmed by heat from the luminometer such that each consecutive sample of a particular type of lysate is slightly warmer than the preceding sample of the same type. Data were expressed as the luminescence of each individual sample, relative to the mean luminescence of all 32 samples of that type and are shown in FIG. 3.

FIG. 3 shows a remarkably large variation in luminescence intensity for each of the w.t. (but non-secreted) luciferases, despite the fact that only the temperature of the lysates (and not the assay buffer) varies during an experiment of this type. In contrast, much less variation was seen with Clone 22.

These data indicate that assays using Clone 22 would benefit from reduced temperature-mediated errors, even if the user fails to properly warm the lysates to RT prior to measurement.

Next, the inventors tested the effect of this unavoidable heating within the luminometer using glow reactions and a plate that was maintained at 21° C. prior to being placed in the luminometer for measurement. Replicate lysates were loaded onto a 96-well plate and a glow reaction initiated with F&G assay buffer. The temperature of the reactions was measured as being 21° C. immediately prior to inserting the plate in the luminometer for measurement. Data were expressed as the luminescence of each individual sample, relative to the mean luminescence of all samples of that type and are shown in FIG. 4.

FIG. 4 demonstrates, once again, that less variation (and therefore less error) occurs with Clone 22 compared to any of the w.t. (non-secreted) luciferases.

Finally, the inventors measured temperature effect on secreted versions of the luciferases by performing an experiment similar to that described in FIG. 2, except using conditioned medium that contains the indicated w.t. and mutant luciferases. The mutations of iMP1v1 are indicated as in TABLE 15D (i.e., L=M−L substitution; C6=RC6AD; C9=KC9SD; C5=RC5AD; C10=GRC10AS). The resultant data are shown in FIG. 5.

FIG. 5 illustrates the much higher optimum temperature of the mutant luciferases and their improved resistance to higher temperatures; e.g., above 21° C. and above 33° C. At the highest temperature (40° C.), the mutant luciferases retained about 10-fold more of their activity.

Example 10 Further Temperature Range-Elevating Modifications

Since previous described examples demonstrated a marked increase in the optimal temperature of a luciferase through a M→L substitution immediately upstream of the conserved PGKK residues, the present inventors sought to determine whether other M→L substitutions would also increase optimum temperature. To this end, a secreted luciferase, designated Clone 25 (comprising the mutations of Clone 22) was mutated at the M corresponding to position 98 in FIG. 1. The variants were tested in luciferase assays as per Example 8 (using conditioned medium as the luciferases were in secreted form) and the results are shown in Table 21A.

TABLE 21A secreted CI25 DLA F&G 10 m 8° C. 32° C. L 113.3 59.0 0.18 −96.7% 221.8% M 110.7 62.4 0.45 −93.0%  63.2% I 93.3 43.6 0.07 −89.3%  69.5% V 93.1 55.3 0.1 −90.4%  78.0% A 25.3 17.1 0.27 −96.6%  48.3%

TABLE 21A shows that replacing the M with L, I or V but not A generated a mutant luciferase with a greater rise in luminescent signal at 32° C., relative to room temperature, indicating an increase in the optimal temperature. The largest rise was seen in the mutant with the M→L substitution.

This rise in optimum temperature was further defined in an optimum temperature experiment performed as per Example 9, FIG. 5. The results are shown in FIG. 6 and demonstrate that the M→L variant of Clone 25 (sCl-25-L) has an optimum temperature of about 37° C., compared to ˜29° C. in Clone 25 without that modification (sCl-25-M). Furthermore, these luciferases displayed a >10- and >20-fold, respectively, higher activity than wild-type secreted Gaussia luciferase (sGa) at the highest temperature (41° C.) assayed.

The effect of the M→(L, I, V or A) modification was also tested in an intracellular version of the Cl25 luciferase. For this experiment, of course, lysate rather than conditioned medium was assayed. TABLE 21B shows that this M→(L, I or V) modification also provides considerable benefit in the context of an intracellular luciferase; e.g. larger rise in luminescence at 32° C. Similar to that seen with the secreted luciferase, the M→L modification provided the greatest rise and the M→A substitution did not raise the optimum temperature.

TABLE 21B intracellular CI-25 DLA F&G 8° C. 32° C. L 29.5 14.8 −97.8% 285.5% M 18.7 11.5 −93.8% −21.1% I 19.9 11.9 −96.0% 183.1% V 7.9 7.5 −97.1%  89.2% A 1.4 1.8 −93.2% −34.0

Example 8 (see Table 15C) showed that the residue, 2 amino acids upstream of C10, influences optimum temperature and that an E at this position was one desirable embodiment. The inventors therefore sought to determine whether substituting in an E at the corresponding position relative to C6 would provide similar benefit. The DRC6AD motif of the both the M and L versions of secreted Clone 25 were converted to ERC6AD and tested as described above. The results are shown in Table 21C, which demonstrates a further rise in optimal temperature via this D→E modification.

TABLE 21C secreted CI-25 DLA FBG 10 m 32° C. M + ERC6AD 98.0 75.5 0.49  56.4% M + DRC6AD 134.0 84.5 0.71  41.2% L + ERC6AD 138.0 90.0 0.41 218.5% L + DRC6AD 146.0 86.0 0.37 170.8%

The disclosure of every patent, patent application, and publication cited herein is hereby incorporated herein by reference in its entirety.

The citation of any reference herein should not be construed as an admission that such reference is available as “Prior Art” to the instant application.

Throughout the specification the aim has been to describe the preferred embodiments of the invention without limiting the invention to any one embodiment or specific collection of features. Those of skill in the art will therefore appreciate that, in light of the instant disclosure, various modifications and changes can be made in the particular embodiments exemplified without departing from the scope of the present invention. All such modifications and changes are intended to be included within the scope of the appended claims. 

What is claimed is:
 1. A method of modifying an isolated, synthetic, recombinant or purified copepod luciferase polypeptide comprising an amino acid sequence at least 80% identical to SEQ ID NO: 792 or SEQ ID NO: 2, the method comprising altering the copepod luciferase polypeptide such that it comprises a modification consisting of: (a) at least one BC motif, wherein B is selected from basic amino acid residues and C is a conserved cysteine or modified form thereof; and the BC motif is selected from the group consisting of BCA at C₅, C₆, and/or C₉, BCAΩ at C₅, C₆, and/or C₉, and BCAD at C₅, C₆, and/or C₉, wherein Ω is selected from a small amino acid residue or an acidic amino acid residue, A is alanine or modified form thereof, D is aspartate or a modified form thereof, and C₅, C₆, and C₉ are conserved cysteines of consensus SEQ ID NO: 905; and at least one of: (i) L, or modified form thereof, at at least one position corresponding to positions 85 or 98 of consensus SEQ ID NO: 905; and (ii) a deletion in whole or in part of an amino acid sequence, wherein the amino acid sequence spans downstream of the signal peptide sequence and upstream of the amino acid residue at a position corresponding to position 85 of consensus SEQ ID NO: 905; or (b) at least one BC motif, wherein B is selected from basic amino acid residues and C is a conserved cysteine or modified form thereof; and the BC motif is selected from the group consisting of BCA at C₅ and/or C₉, BCAD at C₅, and/or C₉, and BCA at C₅and/or C₉, wherein Ω is selected from a small amino acid residue or an acidic amino acid residue, A is alanine or modified form thereof, D is aspartate or modified form thereof, and C₅, and C₉ are conserved cysteines of consensus SEQ ID NO: 905, and optionally, further comprising at least one of: (i) L, or modified form thereof, at at least one position corresponding to positions 85 or 98 of consensus SEQ ID NO: 905; and (ii) a deletion in whole or in part of an amino acid sequence, wherein the amino acid sequence spans downstream of the signal peptide sequence and upstream of the amino acid residue at a position corresponding to position 85 of consensus SEQ ID NO: 905; thereby producing a modified copepod luciferase polypeptide, wherein the modified polypeptide in (a) comprises at least one motif selected from the group consisting of: (i) a BCA motif at at least one position corresponding to conserved cysteines C₅, C₆, and C₉; and (ii) a BCAΩ motif at at least one position corresponding to conserved cysteines C₅, C₆, and C₉; and a deletion in whole or in part of an amino acid sequence, wherein the amino acid sequence spans downstream of the signal peptide sequence and upstream of the amino acid residue at the position corresponding to position 85 of consensus SEQ ID NO: 905; or in (b) comprises at least one motif selected from the group consisting of: (i) a BCA motif at at least one position corresponding to conserved cysteines C₅ and C₉; and (ii) a BCAΩ motif at at least one position corresponding to conserved cysteines C₅ and C₉; and a deletion in whole or in part of an amino acid sequence, wherein the amino acid sequence spans downstream of the signal peptide sequence and upstream of the amino acid residue at the position corresponding to position 85 of consensus SEQ ID NO:
 905. 2. The method according to claim 1, wherein the modified polypeptide comprises L, or modified form thereof, at the position corresponding to position 85 of consensus SEQ ID NO:
 905. 3. The method according to claim 1, wherein the modified polypeptide comprises L, or modified form thereof, at the position corresponding to position 98 of consensus SEQ ID NO:
 905. 4. The method according to claim 1, wherein the modified polypeptide comprises L, or modified form thereof, at the positions corresponding to positions 85 and 98 of consensus SEQ ID NO:
 905. 5. The method according to claim 1, wherein the modified polypeptide in (a) comprises a BC motif at at least one position corresponding to conserved cysteines C₆ and C₉.
 6. The method according to claim 1, wherein the modified polypeptide in (a) comprises a BCA motif at at least one position corresponding to conserved cysteines C₅, C₆ and C₉, or in (b) comprises a BCA motif at at least one position corresponding to conserved cysteines C₅ and C₉.
 7. The method according to claim 1, wherein the modified polypeptide in (a) comprises a BCAΩ motif at at least one position corresponding to conserved cysteines C₅, C₆ and C₉, or in (b) comprises a BCAΩ motif at at least one position corresponding to conserved cysteines C₅ and C₉.
 8. The method according to claim 1, wherein the modified polypeptide comprises: (i) at least one amino acid selected from the group consisting of: L or modified form thereof at the position corresponding to position 85 of consensus SEQ ID NO: 905; L or modified form thereof at the position corresponding to position 98 of consensus SEQ ID NO: 905; and L or modified form thereof at the positions corresponding to positions 85 and 98 of consensus SEQ ID NO: 905, and (ii) at least one motif selected from the group consisting of: a BCA motif at at least one position corresponding to conserved cysteines C₅, C₆, and C₉; and a BCAΩ motif at at least one position corresponding to conserved cysteines C₅, C₆, and C₉.
 9. The method according to claim 1, wherein the modified polypeptide comprises: (i) at least one amino acid selected from the group consisting of: L or modified form thereof at the position corresponding to position 85 of consensus SEQ ID NO: 905; L or modified form thereof at the position corresponding to position 98 of consensus SEQ ID NO: 905; and L or modified form thereof at the positions corresponding to positions 85 and 98 of consensus SEQ ID NO: 905; (ii) at least one motif selected from the group consisting of: a BCA motif at at least one position corresponding to conserved cysteines C₅, C₆, and C₉; and a BCAΩ motif at at least one position corresponding to conserved cysteines C₅, C₆, and C₉; and (iii) a deletion in whole or in part of an amino acid sequence of a reference copepod luciferase polypeptide, wherein the amino acid sequence spans downstream of the signal peptide sequence and upstream of the amino acid residue at the position corresponding to position 85 of consensus SEQ ID NO:
 905. 10. A method of modifying an isolated, synthetic, recombinant or purified Metridia luciferase polypeptide comprising an amino acid sequence at least 80% identical to SEQ ID NO: 792, the method comprising altering the Metridia luciferase polypeptide such that it comprises modifications of: (a) L, or modified form thereof, at at least one position corresponding to position 85 or 98 of consensus SEQ ID NO: 905; and (b) at least one BC motif, wherein B is selected from basic amino acid residues and C is a conserved cysteine or modified form thereof, and the BC motif is selected from the group consisting of BCA at C₅, C₆, and/or C₉, BCAD at C₅, C₆, and/or C₉, and BCAΩ at C₅, C₆, and/or C₉, wherein Ω is selected from a small amino acid residue or an acidic amino acid residue, A is alanine or modified form thereof, D is aspartate or modified form thereof, and C₅, C₆, and C₉ and are conserved cysteines of consensus SEQ ID NO: 905; and (c) optionally, a deletion in whole or in part of an amino acid sequence, wherein the amino acid sequence spans downstream of the signal peptide sequence and upstream of the amino acid residue at the position corresponding to position 85 of consensus SEQ ID NO: 905; thereby producing a modified Metridia luciferase polypeptide.
 11. A method of modifying an isolated, synthetic, recombinant or purified Gaussia luciferase polypeptide comprising an amino acid sequence at least 80% identical to SEQ ID NO: 2, the method comprising altering the Gaussia luciferase polypeptide such that it comprises modifications of: (a) at least one BC motif, wherein B is selected from basic amino acid residues and C is a conserved cysteine, or modified form thereof; and the BC motif is selected from the group consisting of BCA at C₅, C₆, and/or C₉, BCAΩ at C₅, C₆, and/or C₉, and BCAD at C₅, C₆, and/or Cs, wherein Ω is selected from a small amino acid residue or an acidic amino acid residue, A is alanine or modified form thereof, D is aspartate or modified form thereof, and C₅, C₆, and C₉ are conserved cysteines of consensus SEQ ID NO: 905; and (b) a deletion in whole or in part of an amino acid sequence, wherein the amino acid sequence spans downstream of the signal peptide sequence and upstream of the amino acid residue at a position corresponding to position 85 of consensus SEQ ID NO: 905; and (c) optionally, L, or modified form thereof, at at least one position corresponding to position 85 or 98 of consensus SEQ ID NO: 905; thereby producing a modified Gaussia luciferase polypeptide. 